2 FireLite SLC Wiring Manual — P/N 51309:R2 3/19/2019 Fire Alarm & Emergency Communication System Limitations While a life safety system may lower insurance rates, it is not a substitute for life and property insurance! An automatic fire alarm system—typically made up of smoke detectors, heat detectors, manual pull stations, audible warning ...
detectors, heat detectors, manual pull stations, audible warning devices, and a fire alarm control panel (FACP) with remote notifi- cation capability—can provide ...
FireLite SLC Wiring Manual — P/N 51309:R2 3/19/2019 3 Installation Precautions Adherence to the following will aid in problem-free installation with long-term reliability: WARNING - Several different sources of power can be connected to the fire alarm control panel. Disconnect all sources of power before servicing. Control unit and associated
Intelligent Control Panel
SLC
Wiring Manual
Document 51309 Rev: R2 3/19/2019 ECN:18-488
Fire Alarm & Emergency Communication System Limitations
While a life safety system may lower insurance rates, it is not a substitute for life and property insurance!
An automatic fire alarm system--typically made up of smoke detectors, heat detectors, manual pull stations, audible warning devices, and a fire alarm control panel (FACP) with remote notification capability--can provide early warning of a developing fire. Such a system, however, does not assure protection against property damage or loss of life resulting from a fire.
An emergency communication system--typically made up of an automatic fire alarm system (as described above) and a life safety communication system that may include an autonomous control unit (ACU), local operating console (LOC), voice communication, and other various interoperable communication methods--can broadcast a mass notification message. Such a system, however, does not assure protection against property damage or loss of life resulting from a fire or life safety event.
The Manufacturer recommends that smoke and/or heat detectors be located throughout a protected premises following the recommendations of the current edition of the National Fire Protection Association Standard 72 (NFPA 72), manufacturer's recommendations, State and local codes, and the recommendations contained in the Guide for Proper Use of System Smoke Detectors, which is made available at no charge to all installing dealers. This document can be found at http:// www.systemsensor.com/appguides/. A study by the Federal Emergency Management Agency (an agency of the United States government) indicated that smoke detectors may not go off in as many as 35% of all fires. While fire alarm systems are designed to provide early warning against fire, they do not guarantee warning or protection against fire. A fire alarm system may not provide timely or adequate warning, or simply may not function, for a variety of reasons:
Smoke detectors may not sense fire where smoke cannot reach the detectors such as in chimneys, in or behind walls, on roofs, or on the other side of closed doors. Smoke detectors also may not sense a fire on another level or floor of a building. A second-floor detector, for example, may not sense a first-floor or basement fire.
Particles of combustion or "smoke" from a developing fire may not reach the sensing chambers of smoke detectors because:
· Barriers such as closed or partially closed doors, walls, chimneys, even wet or humid areas may inhibit particle or smoke flow.
· Smoke particles may become "cold," stratify, and not reach the ceiling or upper walls where detectors are located.
· Smoke particles may be blown away from detectors by air outlets, such as air conditioning vents.
· Smoke particles may be drawn into air returns before reaching the detector.
The amount of "smoke" present may be insufficient to alarm smoke detectors. Smoke detectors are designed to alarm at various levels of smoke density. If such density levels are not created by a developing fire at the location of detectors, the detectors will not go into alarm.
Smoke detectors, even when working properly, have sensing limitations. Detectors that have photoelectronic sensing chambers tend to detect smoldering fires better than flaming fires, which have little visible smoke. Detectors that have ionizing-type sensing chambers tend to detect fast-flaming fires better than smoldering fires. Because fires develop in different ways and are often unpredictable in their growth, neither type of detector is necessarily best and a given type of detector may not provide adequate warning of a fire.
Smoke detectors cannot be expected to provide adequate warning of fires caused by arson, children playing with matches (especially in bedrooms), smoking in bed, and violent explosions
(caused by escaping gas, improper storage of flammable materials, etc.).
Heat detectors do not sense particles of combustion and alarm only when heat on their sensors increases at a predetermined rate or reaches a predetermined level. Rate-of-rise heat detectors may be subject to reduced sensitivity over time. For this reason, the rate-of-rise feature of each detector should be tested at least once per year by a qualified fire protection specialist. Heat detectors are designed to protect property, not life.
IMPORTANT! Smoke detectors must be installed in the same room as the control panel and in rooms used by the system for the connection of alarm transmission wiring, communications, signaling, and/or power. If detectors are not so located, a developing fire may damage the alarm system, compromising its ability to report a fire.
Audible warning devices such as bells, horns, strobes, speakers and displays may not alert people if these devices are located on the other side of closed or partly open doors or are located on another floor of a building. Any warning device may fail to alert people with a disability or those who have recently consumed drugs, alcohol, or medication. Please note that:
· An emergency communication system may take priority over a fire alarm system in the event of a life safety emergency.
· Voice messaging systems must be designed to meet intelligibility requirements as defined by NFPA, local codes, and Authorities Having Jurisdiction (AHJ).
· Language and instructional requirements must be clearly disseminated on any local displays.
· Strobes can, under certain circumstances, cause seizures in people with conditions such as epilepsy.
· Studies have shown that certain people, even when they hear a fire alarm signal, do not respond to or comprehend the meaning of the signal. Audible devices, such as horns and bells, can have different tonal patterns and frequencies. It is the property owner's responsibility to conduct fire drills and other training exercises to make people aware of fire alarm signals and instruct them on the proper reaction to alarm signals.
· In rare instances, the sounding of a warning device can cause temporary or permanent hearing loss.
A life safety system will not operate without any electrical power. If AC power fails, the system will operate from standby batteries only for a specified time and only if the batteries have been properly maintained and replaced regularly.
Equipment used in the system may not be technically compatible with the control panel. It is essential to use only equipment listed for service with your control panel.
Telephone lines needed to transmit alarm signals from a premises to a central monitoring station may be out of service or temporarily disabled. For added protection against telephone line failure, backup radio transmission systems are recommended.
The most common cause of life safety system malfunction is inadequate maintenance. To keep the entire life safety system in excellent working order, ongoing maintenance is required per the manufacturer's recommendations, and UL and NFPA standards. At a minimum, the requirements of NFPA 72 shall be followed. Environments with large amounts of dust, dirt, or high air velocity require more frequent maintenance. A maintenance agreement should be arranged through the local manufacturer's representative. Maintenance should be scheduled as required by National and/or local fire codes and should be performed by authorized professional life safety system installers only. Adequate written records of all inspections should be kept.
Limit-D2-2016
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FireLite SLC Wiring Manual -- P/N 51309:R2 3/19/2019
Installation Precautions
Adherence to the following will aid in problem-free installation with long-term reliability:
WARNING - Several different sources of power can be connected to the fire alarm control panel. Disconnect all sources of power before servicing. Control unit and associated equipment may be damaged by removing and/or inserting cards, modules, or interconnecting cables while the unit is energized. Do not attempt to install, service, or operate this unit until manuals are read and understood.
CAUTION - System Re-acceptance Test after Software Changes: To ensure proper system operation, this product must be tested in accordance with NFPA 72 after any programming operation or change in site-specific software. Reacceptance testing is required after any change, addition or deletion of system components, or after any modification, repair or adjustment to system hardware or wiring. All components, circuits, system operations, or software functions known to be affected by a change must be 100% tested. In addition, to ensure that other operations are not inadvertently affected, at least 10% of initiating devices that are not directly affected by the change, up to a maximum of 50 devices, must also be tested and proper system operation verified.
This system meets NFPA requirements for operation at 0-49º C/32-120º F and at a relative humidity 93% ± 2% RH (noncondensing) at 32°C ± 2°C (90°F ± 3°F). However, the useful life of the system's standby batteries and the electronic components may be adversely affected by extreme temperature ranges and humidity. Therefore, it is recommended that this system and its peripherals be installed in an environment with a normal room temperature of 15-27º C/60-80º F.
Verify that wire sizes are adequate for all initiating and indicating device loops. Most devices cannot tolerate more than a 10% I.R. drop from the specified device voltage.
Like all solid state electronic devices, this system may operate erratically or can be damaged when subjected to lightning induced transients. Although no system is completely immune from lightning transients and interference, proper grounding will reduce susceptibility. Overhead or outside aerial wiring is not recommended, due to an increased susceptibility to nearby lightning strikes. Consult with the Technical Services Department if any problems are anticipated or encountered.
Disconnect AC power and batteries prior to removing or inserting circuit boards. Failure to do so can damage circuits.
Remove all electronic assemblies prior to any drilling, filing, reaming, or punching of the enclosure. When possible, make all cable entries from the sides or rear. Before making modifications, verify that they will not interfere with battery, transformer, or printed circuit board location.
Do not tighten screw terminals more than 9 in-lbs. Overtightening may damage threads, resulting in reduced terminal contact pressure and difficulty with screw terminal removal.
This system contains static-sensitive components. Always ground yourself with a proper wrist strap before handling any circuits so that static charges are removed from the body. Use static suppressive packaging to protect electronic assemblies removed from the unit.
Units with a touchscreen display should be cleaned with a dry, clean, lint free/microfiber cloth. If additional cleaning is required, apply a small amount of Isopropyl alcohol to the cloth and wipe clean. Do not use detergents, solvents, or water for cleaning. Do not spray liquid directly onto the display.
Follow the instructions in the installation, operating, and programming manuals. These instructions must be followed to avoid damage to the control panel and associated equipment. FACP operation and reliability depend upon proper installation.
Precau-D2-11-2017
FCC Warning
WARNING: This equipment generates, uses, and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause interference to radio communications. It has been tested and found to comply with the limits for class A computing devices pursuant to Subpart B of Part 15 of FCC Rules, which is designed to provide reasonable protection against such interference when devices are operated in a commercial environment. Operation of this equipment in a residential area is likely to cause interference, in which case the user will be required to correct the interference at his or her own expense.
Canadian Requirements
This digital apparatus does not exceed the Class A limits for radiation noise emissions from digital apparatus set out in the Radio Interference Regulations of the Canadian Department of Communications.
Le present appareil numerique n'emet pas de bruits radioelectriques depassant les limites applicables aux appareils numeriques de la classe A prescrites dans le Reglement sur le brouillage radioelectrique edicte par le ministere des Communications du Canada.
LiteSpeedTM and Lite-ConnectTM are trademarks; and Fire-Lite® Alarms, Honeywell®, and SWIFT® are registered trademarks of Honeywell International Inc. Microsoft® and Windows® are registered trademarks of the Microsoft Corporation. ChromeTM and GoogleTM are trademarks of Google Inc. Firefox® is a registered trademark of The Mozilla Foundation.
©2019 by Honeywell International Inc. All rights reserved. Unauthorized use of this document is strictly prohibited.
FireLite SLC Wiring Manual -- P/N 51309:R2 3/19/2019
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Software Downloads
In order to supply the latest features and functionality in fire alarm and life safety technology to our customers, we make frequent upgrades to the embedded software in our products. To ensure that you are installing and programming the latest features, we strongly recommend that you download the most current version of software for each product prior to commissioning any system. Contact Technical Support with any questions about software and the appropriate version for a specific application.
Documentation Feedback
Your feedback helps us keep our documentation up-to-date and accurate. If you have any comments or suggestions about our online Help or printed manuals, you can email us.
Please include the following information:
· Product name and version number (if applicable) · Printed manual or online Help · Topic Title (for online Help) · Page number (for printed manual) · Brief description of content you think should be improved or corrected · Your suggestion for how to correct/improve documentation
Send email messages to:
FireSystems.TechPubs@honeywell.com
Please note this email address is for documentation feedback only. If you have any technical issues, please contact Technical Services.
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FireLite SLC Wiring Manual -- P/N 51309:R2 3/19/2019
Table of Contents
Section 1: Introduction ..................................................................................................................................................... 8 1.1: Scope..................................................................................................................................................................................................................8 1.1.1: Reference Documentation ......................................................................................................................................................................8 1.2: Overview..........................................................................................................................................................................................................10 1.3: Polling Protocols..............................................................................................................................................................................................10 1.3.1: Available Protocols...............................................................................................................................................................................10 1.3.2: Protocol Use..........................................................................................................................................................................................10 1.4: Devices ............................................................................................................................................................................................................10 1.4.1: Isolator Modules ...................................................................................................................................................................................10 1.4.2: Monitor Modules ..................................................................................................................................................................................10 1.4.3: Control Modules ...................................................................................................................................................................................10 1.4.4: Relay Modules ......................................................................................................................................................................................11 1.4.5: Multiple Input/Output Modules............................................................................................................................................................11 1.4.6: Intelligent Detectors..............................................................................................................................................................................11 1.4.7: Manual Pull Statio.n.............................................................................................................................................................................12 1.4.8: Wireless Gateway .................................................................................................................................................................................12 1.4.9: 300 Series Addressable Devices...........................................................................................................................................................12 1.4.10: 900 Series Addressable Devices .........................................................................................................................................................12 1.5: SLC Capacity...................................................................................................................................................................................................12 1.6: SLC Performance.............................................................................................................................................................................................12 1.7: Surge Suppression............................................................................................................................................................................................13 1.8: LED Operation.................................................................................................................................................................................................13
Section 2: Wiring Requirements .................................................................................................................................... 14 2.1: Wire Sizing ......................................................................................................................................................................................................14 2.1.1: CLIP (Classic Loop Interface Protocol) Mode.....................................................................................................................................14 2.1.2: LiteSpeed Mode....................................................................................................................................................................................14 2.2: Measuring Resistance & Length......................................................................................................................................................................14 2.2.1: Two-Wire SLC - Style 4 (Class B).......................................................................................................................................................14 2.2.2: Four-Wire SLC Style 6 & 7 (Class A)..................................................................................................................................................15 2.3: Shield Wire Termination ..................................................................................................................................................................................16 2.4: Control Panel Terminal Blocks........................................................................................................................................................................17 2.4.1: MS-9200 ...............................................................................................................................................................................................17 2.4.2: MS-9600, MS-9600LS, & MS-9600UDLS..........................................................................................................................................17 2.4.3: MS-9200UDLS (Software Version 3.0) ...............................................................................................................................................18 2.4.4: MS-9200UD & MS-9200UDLS (Versions 1 and 2) ............................................................................................................................18 2.4.5: MS-9050UD .........................................................................................................................................................................................18 2.4.6: ES-50X .................................................................................................................................................................................................19 2.4.7: ES-200X ...............................................................................................................................................................................................19
Section 3: SLC Circuits without Isolators ..................................................................................................................... 20 3.1: Overview..........................................................................................................................................................................................................20 3.2: NFPA Style 4 SLC ...........................................................................................................................................................................................20 3.3: NFPA Style 6 SLC ...........................................................................................................................................................................................21
Section 4: SLC Circuits with Isolators........................................................................................................................... 22 4.1: Fault Isolator Devices ......................................................................................................................................................................................22 4.1.1: Isolating an SLC Branch.......................................................................................................................................................................22 4.1.2: Wiring an Isolator Module....................................................................................................................................................................22 4.2: NFPA Style 4 SLC Using Isolator Modules ....................................................................................................................................................24 4.3: NFPA Style 6 SLC Using Isolator Modules ....................................................................................................................................................26 4.4: NFPA Style 7 SLC Using Isolator Modules ....................................................................................................................................................27
Section 5: Monitor Modules............................................................................................................................................ 28 5.1: Descriptions .....................................................................................................................................................................................................28 5.1.1: Addressable Monitor Modules .............................................................................................................................................................28 5.1.2: Zone Interface Modules........................................................................................................................................................................30 5.1.3: Dual Monitor Module ...........................................................................................................................................................................32 5.1.4: Mini Monitor Module ...........................................................................................................................................................................32 5.2: Installation .......................................................................................................................................................................................................32 5.2.1: Setting an SLC address for a Single Point Module ..............................................................................................................................33 5.2.2: Setting an SLC address for a Multi-Point Module ...............................................................................................................................33 5.3: MMF-300 Wiring Diagrams ............................................................................................................................................................................34
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Table of Contents
5.3.1: Wiring a NFPA Style B IDC with an MMF-300..................................................................................................................................34 5.3.2: Wiring a NFPA Style D IDC with an MMF-300 .................................................................................................................................35 5.3.3: MMF-300 Wiring for Emergency Alarm System Applications ...........................................................................................................36 5.4: MMF-300-10 Wiring Diagrams.......................................................................................................................................................................37 5.4.1: Wiring a NFPA Style B IDC with an MMF-300-10 ............................................................................................................................37 5.4.2: Wiring a NFPA Style D IDC with an MMF-300-10 ............................................................................................................................38 5.5: MDF-300 Wiring Diagrams.............................................................................................................................................................................39 5.5.1: Wiring a NFPA Style B IDC with an MDF-300 ..................................................................................................................................39 5.6: MMF-302 Wiring Diagrams ............................................................................................................................................................................40 5.6.1: Wiring a NFPA Style B IDC with an MMF-302..................................................................................................................................40 5.6.2: Wiring a NFPA Style D IDC with an MMF-302 .................................................................................................................................41 5.7: MMF-302-6 Wiring Diagrams.........................................................................................................................................................................42 5.7.1: Wiring a NFPA Style B IDC with an MMF-302-6 ..............................................................................................................................42 5.7.2: Wiring a NFPA Style D IDC with an MMF-302-6 ..............................................................................................................................43
Section 6: Control Modules ............................................................................................................................................ 44 6.1: Description.......................................................................................................................................................................................................44 6.2: CMF-300 Installation.......................................................................................................................................................................................44 6.2.1: Setting an SLC address for a CMF-300 Module ..................................................................................................................................44 6.2.2: Wiring a Notification Appliance Circuit (NAC) with a CMF-300.......................................................................................................44 6.3: Wiring a CMF-300 Module .............................................................................................................................................................................44 6.3.1: Wiring a Style Y NAC (Two-Wire) with Addressable Control Modules ............................................................................................44 6.3.2: Wiring a Style Z NAC (Four-Wire) with Addressable Control Modules ............................................................................................45 6.4: CMF-300-6 Installation ...................................................................................................................................................................................46 6.4.1: Cabinet Installation...............................................................................................................................................................................46 6.4.2: Setting an SLC address for an CMF-300-6 Module.............................................................................................................................46 6.4.3: Setting NACs as Style Y or Style Z......................................................................................................................................................46 6.4.4: Disabling Unused Module Addresses...................................................................................................................................................46 6.4.5: Short Circuit Protection ........................................................................................................................................................................46 6.4.6: Features Not Supported ........................................................................................................................................................................46 6.4.7: Circuit Board Information ....................................................................................................................................................................47 6.5: Wiring a CMF-300-6 Module ..........................................................................................................................................................................48 6.5.1: Wiring a Style Y NAC (Two-Wire) .....................................................................................................................................................48 6.5.2: Wiring a Style Z NAC (Four-Wire)......................................................................................................................................................49
Section 7: Relay Modules ............................................................................................................................................... 50 7.1: Description.......................................................................................................................................................................................................50 7.2: CRF-300 Installation & Wiring .......................................................................................................................................................................50 7.2.1: Setting an SLC address for a CRF-300 Module ...................................................................................................................................50 7.2.2: Wiring a CRF-300 Module (Form-C Relay) ........................................................................................................................................50 7.3: CRF-300-6 Circuit Board Information ............................................................................................................................................................51 7.4: CRF-300-6 Installation & Wiring ....................................................................................................................................................................52 7.4.1: Cabinet Installation...............................................................................................................................................................................52 7.4.2: Setting an SLC address for a CRF-300-6 Module................................................................................................................................52 7.4.3: Disabling Unused Module Addresses...................................................................................................................................................52 7.4.4: Wiring a CRF-300-6 Module (Form-C Relay) .....................................................................................................................................52
Section 8: Multiple Input/Output Modules..................................................................................................................... 53 8.1: Description.......................................................................................................................................................................................................53 8.2: CDRM-300 Installation & Wiring ...................................................................................................................................................................53 8.2.1: Setting an SLC address for a CDRM-300 Module...............................................................................................................................53 8.2.2: Wiring a CDRM-300 Module (Form-C Relay) ....................................................................................................................................53
Section 9: Intelligent Detector Bases and Wireless Gateway ..................................................................................... 54 9.1: Description.......................................................................................................................................................................................................54 9.2: Setting the Detector Address ...........................................................................................................................................................................54 9.3: Wiring a Detector Base ....................................................................................................................................................................................55 9.4: Wiring an Isolator Base ...................................................................................................................................................................................56 9.5: Wiring a Relay Base ........................................................................................................................................................................................56 9.6: Wiring a Sounder Base ....................................................................................................................................................................................57 9.7: Wiring the W-GATE ........................................................................................................................................................................................57 9.7.1: SLC Connections ..................................................................................................................................................................................58 9.7.2: W-GATE Powered by the SLC ............................................................................................................................................................58 9.7.3: W-GATE Powered by a Regulated, External +24VDC Power Source ................................................................................................59
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Table of Contents
Section 10: Addressable Beam Detectors .................................................................................................................... 60 10.1: Description.....................................................................................................................................................................................................60 10.2: Installation and Wiring ..................................................................................................................................................................................60 10.2.1: Setting an SLC Address for a Beam Detector ....................................................................................................................................60 10.2.2: Wiring a Beam Detector .....................................................................................................................................................................60
Section 11: Addressable Manual Pull Station............................................................................................................... 62 11.1: Description.....................................................................................................................................................................................................62 11.2: Installation......................................................................................................................................................................................................62 11.2.1: Setting an SLC address .......................................................................................................................................................................62 11.2.2: Wiring a Manual Pull Station .............................................................................................................................................................62
Appendix A: Power Considerations .............................................................................................................................. 63 A.1: Supplying Power to 24 VDC Detectors and NACs ........................................................................................................................................63 A.1.1: Resistance and Size..............................................................................................................................................................................63 A.2: Supervising 24 VDC Power............................................................................................................................................................................64
Appendix B: Surge Suppression ................................................................................................................................... 65 B.1: Introduction.....................................................................................................................................................................................................65 B.2: Installation.......................................................................................................................................................................................................65 B.2.1: Wiring Diagram for MS-9200..............................................................................................................................................................66 B.2.2: Wiring Diagram for MS-9600, MS-9600LS, MS-9600UDLS, MS-9200UD, MS-9200UDLS, and MS-9050UD ............................67 B.2.3: Wiring Diagram for ES-50X and ES-200X .........................................................................................................................................68
Appendix C: Terminal Conversion Charts for New & Legacy Devices ...................................................................... 69 C.1: CRF-300..........................................................................................................................................................................................................69 C.2: CMF-300 and MMF-302 ................................................................................................................................................................................69 C.3: MMF-300 ........................................................................................................................................................................................................70 C.4: MDF-300.........................................................................................................................................................................................................71
Appendix D: Intelligent Detector Base Layouts for Legacy Devices.......................................................................... 72 D.1: B350LP or B501 Detector Base......................................................................................................................................................................72 D.2: B224BI Isolator Base.....................................................................................................................................................................................73 D.3: B224RB Relay Base .......................................................................................................................................................................................73 D.4: B501BH(-2) and B501BHT(-2) Sounder Bases .............................................................................................................................................74
Appendix E: Canadian Versions of SLC Devices ......................................................................................................... 75
Index ................................................................................................................................................................................. 77
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Section 1: Introduction
1.1 Scope
This document describes the operation, installation and wiring of various Signaling Line Circuit (SLC) devices when used with the FireLite MS-9200, MS-9200E, MS-9600, MS-9600E, MS-9600LS, MS-9600LSC, MS-9600LSE, MS-9600UDLS, MS-9600UDLSE, MS-9200UD, MS-9200UDE, MS-9200UDLS, MS-9200UDLSE, MS-9200UDLSC, MS-9050UD, MS-9050UDC, MS-9050UDE, ES50X, ES-50XC, ES-200X, and ES-200XC control panels. It also provides basic information that applies to Fire·Lite SLC loops in general, such as the branch resistance measurements.
NOTE: Any reference in this manual to the MS-9200, MS-9200UD, MS-9200UDLS, MS-9600, MS-9600LS, MS-9600UDLS, MS-9050UD, ES-50X, or ES-200X includes the MS-9200E, MS-9200UDE, MS-9200UDLSE, MS-9200UDLSC, MS-9600E, MS-9600LSE, MS-9600LSC, MS-9600UDLSE, MS-9050UDC, MS-9050UDE, ES-50XC, or ES-200XC respectively unless otherwise specified.
Additional information about the specific control panel and the modules and detectors referenced in this document can be found in the respective installation manual as listed in Section 1.1.1, "Reference Documentation". Currently, there are two styles of modules available, legacy version and newer version. The obvious difference between the two styles is the orientation of the rotary dials. Refer to the diagram below for an example of each.
CMF-300 Legacy Version Module
(Vertical Rotary Dial)
CMF-300 Newer Version Module (Horizontal Rotary Dial)
NOTE: Only the MMF-300, MMF-302, CRF-300, CMF-300, and MDF-300 modules are available as newer type modules. Both the legacy and newer versions share the same part numbers. The newer version modules will be phased in, replacing the legacy version. This manual contains information and wiring diagrams for the newer version of the modules. Refer to "Terminal Conversion Charts for New & Legacy Devices" on page 69 for additional information.
Currently, there are two styles of detector bases available, legacy version and newer version. The obvious difference between the two styles is the orientation of the screw terminals. Refer to Section 9 and Appendix D for an illustration of each.
NOTE: Only the B501 Detector Base, B210LP Detector Base (replacement base for B350LP), B224RB Relay Base, and B224BI Isolator Base are available as newer type bases. Both the legacy and newer versions share the same part numbers. The newer version bases will be phased in, replacing the legacy version. This manual contains information and wiring diagrams for the newer version of the bases. Refer to "Intelligent Detector Base Layouts for Legacy Devices" on page 72 for additional information.
1.1.1 Reference Documentation
The table below accommodates a list of document sources containing additional information regarding the devices used on a Signaling Line Circuit:
For information on... MS-9200, MS-9200E MS-9600, MS-9600E MS-9200UD, MS-9200UDE Control Panels MS-9200UDLS, MS-9200UDLSE, MS-9200UDLSC Control Panels MS-9600LS, MS-9600LS(C/E) & MS-9600UDLS, MS9600UDLSE Control Panels MS-9050UD, MS-9050UDC, MS-9050UDE Control Panels ES-50X, ES-50XC Control Panels ES-200X, ES-200XC Control Panels Compatible Devices
Wireless Sensor Network BG-12LX Pull Station MMF-300 Monitor Module MMF-300-10 Monitor Module
Refer to... Instruction Manual Instruction Manual Instruction Manual Instruction Manual Instruction Manual Instruction Manual Instruction Manual Instruction Manual Device Compatibility Document Instruction Manual Installation Instructions Installation Instructions Installation Instructions
Part Number 51003 51335 51906 52750 52646 52413 LS10129-000FL-E LS10131-000FL-E 15384
LS10036-000FL-E I56-3655 I56-1191 / I56-3653 I56-1873
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Scope
For information on... MMF-301 Mini Monitor Module MMF-302 Monitor Module MMF-302-6 Interface Module MDF-300 Dual Monitor Module CMF-300 Control Module CMF-300-6 Control Module CRF-300 Relay Module CRF-300-6 Relay Module CDRM-300 Multiple Input/Output Module I300 Isolator Module ISO-6 Isolator Module AD350 Multi-criteria Detector AD355 Multi-criteria Detector AD365/-IV Multi-criteria Detector AD365A/-IV Multi-criteria Detector SD350 & SD350T Photo Detector SD355 & SD355T Photo Detector SD355CO CO Detector SD355R Photo Detector Remote Capable SD365CO CO Detector SD365/-IV Photo Detector SD365T/-IV Photo Detector SD365R/-IV Photo Detector Remote Capable CP350 Ionization Detector CP355 Ionization Detector H350 Heat Detector H350R Heat Detector w/ROR
H355 Heat Detector (135°)
H355R Heat Detector w/ROR
H355HT Heat Detector (190°) H365/-IV Heat Detector (135°)
H365R/-IV Heat Detector w/ROR
H365HT/-IV Heat Detector (190°)
D350P Duct Detector D350PL(A) Duct Detector - low flow D350RP Duct Detector w/Relay D350RPL(A) Duct Detector w/Relay - low flow D355PL Duct Detector - low flow BEAM355(S) Addressable Beam Detector OSI-RI-FL Intelligent Beam Detector B210LP Plug-in Detector Base B501 Legacy Detector Base B501, B501-WHITE, B501-IV, and B501-BL Detector Bases B501BH Sounder Detector Base B501BH-2 Sounder Detector Base B501BHT Temporal Sounder Detector Base B501BHT-2 Temporal Sounder Detector Base B200S-WH, B200S-IV Sounder Detector Bases B200S-LF-WH, B200S-LF-IV Low Frequency Sounder Detector Bases B200SR-WH, B200SR-IV Sounder Detector Bases B200SR-LF-WH, B200SR-LF-IV Low Frequency Sounder Detector Bases B224RB Legacy Relay Detector Base B224RB-WH, B224RB-IV Relay Detector Bases B224BI Isolator Detector Base B224BI-WH, B224BI-IV Isolator Detector Bases B300-6, B300-6-IV Detector Base
FireLite SLC Wiring Manual -- P/N 51309:R2 3/19/2019
Introduction
Refer to... Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions
Part Number I56-1193 / I56-3654 I56-1192 / I56-3652 I56-1900 I56-0013 / I56-3665 I56-1189 / I56-3650 I56-1874 I56-1190 / I56-3651 I56-1875 I56-3726 I56-1381 I56-4096 F300-17-00 I56-3660 I56-6617 i56-9140 I56-0035 I56-3660 I56-4129 I56-3570 I56-6601 I56-6523 I56-6526 I56-6524 I56-0036 I56-3656 I56-0038 I56-0037 I56-3657 I56-3657 I56-3657 I56-6525 I56-6525 I56-6525 F300-10-00 I56-1975 I56-0047 I56-1974 I56-3255 I56-2425 I56-6584 I56-3739 I56-0357 I56-3738 I56-0491 I56-2813 I56-1367 I56-2819 I56-3387 I56-4151 I56-3392 I56-4152 I56-2815 I56-3737 I56-0725 I56-3736 I56-6566
9
Introduction
Overview
For information on... SD992 Photo Detector H995 Photo/Thermal Detector MCP900 Addressable Pull Station CMF-900 Control Module MMF-900 Monitor Module MMF-902 Interface Module I900 Isolator Module IO900 Input/Output Module B901 Detector Base
Refer to... Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions Installation Instructions
Part Number I56-5827 I56-5828 I56-5833 I56-5829 I56-5830 I56-5831 I56-5832 I56-5834 I56-1900
1.2 Overview
Communication between the control panel and intelligent addressable monitor and control devices takes place through a Signaling Line Circuit (SLC), which can be wired to meet the requirements of NFPA Style 4, Style 6, or Style 7.
At least one secondary surge protector must be used with each SLC wiring pair whenever SLC wiring runs outside the building. For detailed information refer to "Surge Suppression" on page 65.
1.3 Polling Protocols
The MS-9200UDLS, MS-9600LS, MS-9600UDLS, ES-50X, and ES-200X support LiteSpeed protocol or Classic Loop Interface Protocol (CLIP). The MS-9200/E,MS-9600/E, MS-9200UD/E, and MS-9050UD support Classic Loop Interface Protocol (CLIP) only.
1.3.1 Available Protocols
LiteSpeed is a communication protocol that greatly enhances the speed of communication between analog intelligent devices. Only the MS-9200UDLS, MS-9600LS, MS-9600UDLS, ES-50X, and ES-200X are capable of operating in LiteSpeed mode. This is the default mode of operation for these FACPs. CLIP (Classic Loop Interface Protocol) polls devices in sequential order. All Fire-LiteFireWarden addressable fire alarm control panels can operate in CLIP mode. This is the default mode of operation for all other FACPs.
1.3.2 Protocol Use
Use one of the following options with LiteSpeed/CLIP mode: 1. Program all modules and detectors on an FACP as LiteSpeed. 2. Program all modules and detectors on an FACP as CLIP.
NOTE: FACPs with more than one SLC loop must be programmed for only LiteSpeed or CLIP mode of operation. Communication protocols cannot be split between SLC loops.
When switching between polling protocols, the loop circuit must be powered down for at least 30 seconds to reset the devices.
1.4 Devices
1.4.1 Isolator Modules
Isolator Modules permit a zone of detectors and modules to be fault isolated from the remainder of the SLC loop, allowing critical components to function in the event of a circuit fault. Isolator modules are required to meet the requirements of an NFPA Style 7 circuit. I300 - Single fault isolator module ISO-6 - Six fault isolator module
1.4.2 Monitor Modules
Addressable modules that allow the control panel to monitor entire circuits of conventional alarm initiating devices, such as manual pull stations, smoke detectors, heat detectors, waterflow and supervisory devices. MMF-300 - Monitors a Style B (Class B) or Style D (Class A) circuit of dry-contact input devices. MMF-300-10 - Monitors ten (10) Style B (Class B) or five (5) Style D (Class A) normally open contact device circuits. MMF-301 - Same as the MMF-300 except offered in a smaller package for mounting with Style B wired devices. This module does not have an LED. MMF-302 - Monitors a single IDC of two-wire smoke detectors. MMF-302-6 - Addressable module that provides an interface between the control panel and six (6) Style B (Class B) or three (3) Style D (Class A) IDCs of two-wire smoke detectors. MDF-300 - Similar to MMF-300, but provides for two independent Style B IDCs.
1.4.3 Control Modules
Through the CMF-300 addressable control module, the control panel can selectively activate a Notification Appliance Circuit (NAC).
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Devices
Introduction
CMF-300-6 - Similar in operation to the CMF-300, except it can activate six (6) Style Y (Class B) or three (3) Style Z (Class A) NACs.
1.4.4 Relay Modules
The CRF-300 addressable relay module provides the control panel with a dry-contact output for activating a variety of auxiliary devices.
CRF-300-6 - Similar in operation to the CRF-300, except it provides six (6) Form-C relays.
1.4.5 Multiple Input/Output Modules
The CDRM-300 addressable multiple input/output module monitors two (2) Style B input devices and provides two (2) independent Form-C relay contacts.
1.4.6 Intelligent Detectors
AD350 - A multi-criteria smoke sensor that combines a photoelectric sensing chamber and 135°F (57.2°C) fixed temperature heat detection. The sensor uses addressable communication to transmit smoke density and other information to the control panel. It adjusts its detection parameters and alarm threshold depending on the ambient conditions it samples in its environment.
AD355 - Multi-criteria smoke sensor that combines a photoelectric sensing chamber and 135°F (57.2°C) fixed temperature heat detection. The sensor uses addressable communication to transmit smoke density and other information to the control panel. It adjusts its detection parameters and alarm threshold depending on the ambient conditions it samples in its environment.
AD365 - Multi-criteria smoke sensor that combines a photoelectric sensing chamber and 135°F (57.2°C) fixed temperature heat detection. The sensor uses addressable communication to transmit smoke density and other information to the control panel. It adjusts its detection parameters and alarm threshold depending on the ambient conditions it samples in its environment. This model is available in ivory with -IV added to the model name. The ivory color model has the ability to work in CLIP mode. The standard white color functions in LiteSpeed only. This device is only listed for UL 268 6th Edition requirements.
CP350 - An addressable ionization smoke detector which measures the level of combustion products in its chamber using the `ionization principle'.
CP355 - Addressable ionization smoke detector which measures the level of combustion products in its chamber using the `ionization principle'.
D350P - An addressable photoelectric duct detector. The D350RP includes an alarm relay. Air velocity rating is 500 to 4,000 feet per minute.
D350PL -Addressable low flow photoelectric duct detector (D350PLA for Canada). The D350RPL includes an alarm relay (D350RPLA for Canada). Low Flow refers to the air velocity rating of 100 to 4,000 feet per minute (0.5 to 20.32 m/sec).
D355PL - An addressable non-relay photoelectric low flow smoke detector. Low Flow refers to the air velocity rating of 100 to 4,000 feet per minute (0.5 to 20.32 m/sec). H3501 - An addressable detector using a thermistor sensing circuit for fast response. H350R incorporates a thermal rate of rise of 15°F (9.4°C)/minute. H3551 - Addressable 135° fixed temperature heat detector using a thermistor sensing circuit for fast response. H355R incorporates a thermal rate of rise of 15° F (9.4° C)/minute. H355HT1 - Addressable 190° fixed temperature heat detector using a thermistor sensing circuit for fast response. H3651 - Addressable 135° fixed temperature heat detector using a thermistor sensing circuit for fast response. H365R incorporates a thermal rate of rise of 15° F (9.4° C)/minute. This model is available in ivory with -IV added to the model name. The ivory color model has the ability to work in CLIP mode. The standard white color functions in LiteSpeed only. H365HT1 - Addressable 190° fixed temperature heat detector using a thermistor sensing circuit for fast response. This model is available in ivory with -IV added to the model name. The ivory color model has the ability to work in CLIP mode. The standard white color functions in LiteSpeed only.
SD350 - An addressable photoelectric smoke detector which provides smoke sensing utilizing optical sense technology. The SD350T includes a 135° F fixed thermal sensor.
SD355 - Addressable photoelectric smoke detector which provides smoke sensing utilizing optical sense technology. The SD355T includes a 135° F fixed thermal sensor. The SD355R is a low profile, intelligent, photoelectric sensor that is remote test capable.
SD365 - Addressable photoelectric smoke detector which provides smoke sensing utilizing optical sense technology. The SD365T includes a 135° F fixed thermal sensor. The SD365R is a low profile, intelligent, photoelectric sensor that is remote test capable. For use with DNR(W). This model is available in ivory with -IV added to the model name. The ivory color model has the ability to work in CLIP mode. The standard white color functions in LiteSpeed only.
SD355CO - addressable device that provides both fire and carbon monoxide (CO) detection. It combines four separate sensing elements in one unit (smoke, CO, light/flame, and heat) to sense multiple components of a fire. The detector's electrochemical sensing cell creates a separate signal for life safety CO detection.
SD365CO - addressable device that provides both fire and carbon monoxide (CO) detection. It combines four separate sensing elements in one unit (smoke, CO, light/flame, and heat) to sense multiple components of a fire. The detector's electrochemical sensing cell creates a separate signal for life safety CO detection. This model functions in LiteSpeed only. This device is only listed for UL 268 6th Edition requirements.
1. Addressable Heat Detectors are not compatible with the MS-9200(E).
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Introduction
SLC Capacity
BEAM355 - An addressable long range projected beam smoke detector designed to provide open area protection. The BEAM355S has an integral sensitivity test feature that consists of a test filter attached to a servomotor inside the detector optics.
DNR(W) - Innovair Flex, intelligent, non-relay, low flow, photoelectric duct detector housing. This requires the SD355R or SD365R photoelectric smoke detector. Accommodates the installation of the CRF-300 relay module. The DNRW is a watertight housing.
OSI-RI-FL - An addressable long range projected beam smoke detector designed to provide open area protection. Operates in LiteSpeed or CLIP mode.
1.4.7 Manual Pull Station
The BG-12LX is a dual-action pull station that, when activated, provides an addressable identification and its location to the control panel. An addressable monitor module is mounted inside the pull station to facilitate servicing and replacement.
1.4.8 Wireless Gateway
W-GATE: The Wireless Gateway acts as a bridge between a group of wireless fire devices and a LiteSpeed SLC loop on the ES-50X, ES-200X, or MS-9200UDLS. It is powered by the SLC loop or by a regulated, external 24VDC UL listed power supply. Available wireless devices include a photo detector, a photo/heat detector, a fixed-temperature heat detector, a rate-of-rise heat detector, and a monitor module. For details about wireless devices, system setup, and operation, see the SWIFTTM Smart Wireless Integrated Fire Technology Instruction Manual.
NOTE: The W-GATE, as part of the wireless network, has been tested for compliance with the Federal Communications Commission (FCC) requirements of the United States Government. It has not been evaluated for use outside the USA. Use of this system outside the USA is subject to local laws and rules to which this product may not conform. It is the sole responsibility of the user to determine if this product may be legally used outside the USA.
1.4.9 300 Series Addressable Devices
Fire·Lite's 300 Series of addressable devices are fully compatible with the MS-9200, MS-9200UD, MS-9200UDLS, MS-9600, MS9600LS(C/E), MS-9600UDLS/E, MS-9050UD, ES-50X, and ES-200X FACPs. The devices must be configured for CLIP (Classic Loop Interface Protocol) Mode operation. The address of 300 series devices cannot be set above 99. Compatible devices include:
· SD300 Photo · SD300T Photo w/Thermal · CP300 Ionization · BG-10LX Pull Station
· M300 Monitor Module · M301 Mini Monitor Module · M302 2-wire Monitor Module · C304 Control/Relay Module
1.4.10 900 Series Addressable Devices
Fire·Lite's 900 Series of addressable devices are fully compatible with the MS-9200UDLS/E and MS-9050UD/E FACPs, however they are not for use in the United States or Canada. The devices must be configured for CLIP (Classic Loop Interface Protocol) Mode operation. The address of 900 series devices cannot be set above 99. Compatible devices include:
· SD992 Photo · H995 Photo w/Thermal · MCP900 Call Point/Pull Station · CMF-900 Control Module · B901 Base
· MMF-900 Monitor Module · MMF-902 Interface Module · I900 Isolator Module · IO900 Input/Output Module · CP900 Programming Tool
Refer to the manufacturer's installation instructions for information on wiring and programming.
1.5 SLC Capacity
The protocol selected for an SLC loop determines the maximum number of devices that can be handled by the loop. See Section 1.3, "Polling Protocols". Within those limits, the individual control panel may have additional restrictions. See the specific installation manual for this information.
1.6 SLC Performance
SLC performance depends on the type of circuit (Style 4, Style 6, or Style 7) and the components on the circuit.
NOTE: SLC operation meeting Style 7 requirements isolates each device on the SLC from faults that may occur within other areas of the SLC.
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Surge Suppression
Introduction
Wiring style requirements are determined by national and local codes. Consult with the Authority Having Jurisdiction before wiring the SLC. The table below (derived from NFPA 72-1999) lists the trouble conditions that result when a fault exists on an SLC.
Type of Fault
Style 4
Style 6
Style 7
Single Open
Trouble
Alarm, Trouble
Alarm, Trouble
Single Ground
Alarm, Trouble (ground) Alarm, Trouble (ground) Alarm, Trouble (ground)
Short
Trouble
Trouble
Alarm, Trouble
Short and open
Trouble
Trouble
Trouble
Short and ground
Trouble
Trouble
Alarm, Trouble
Open and ground
Trouble
Alarm, Trouble
Alarm, Trouble
Communications loss
Trouble
Trouble
Trouble
· Trouble - The control panel will indicate a trouble condition for this type of fault. · Alarm - The control panel must be able to process an alarm input signal in the presence of this type of fault.
Table 1.1 SLC Performance
1.7 Surge Suppression
One primary surge protector must be used with each SLC wiring pair whenever SLC wiring runs outside the building. For detailed information refer to "Surge Suppression" on page 65.
1.8 LED Operation
The table below lists the LED operation on the various devices on an SLC.
Device
Monitor Module Control Module Detector
Standby
Activated
Blinks RED Blinks GREEN Blinks RED
Steady RED Steady GREEN Steady RED
Table 1.2 LED Operation
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Section 2: Wiring Requirements
2.1 Wire Sizing
The SLC requires use of a specific wire type, depending on the mode of operation, to ensure proper circuit functioning. Wire size should be no smaller than 18 AWG (0.75 mm2) and no larger than 12 AWG (3.25 mm2) wire. The wire size depends on the length of the SLC circuit. It is recommended that all SLC wiring be twisted-pair to minimize the effects of electrical interference.
2.1.1 CLIP (Classic Loop Interface Protocol) Mode
All addressable FACPs can operate in CLIP (Classic Loop Interface Protocol) mode. It is recommended that all SLC wiring be twistedpair and shielded when operating in CLIP mode to reduce the effects of electrical interference. Use the table below to determine the specific wiring requirements for the SLC.
Wire Requirements Distance in Feet (meters) Twisted-pair, shielded 10,000 feet (3,048 m)
Wire Size 12 AWG (3.1 mm2)
8,000 feet (2,438 m)
14 AWG (2.0 mm2)
4,875 feet (1,486 m)
16 AWG (1.3 mm2)
3,225 feet (983 m)
18 AWG (0.75 mm2)
Untwisted, unshielded wire, inside conduit or not in conduit
MS-9200 = 1,000 feet (305 m)
MS-9600, MS-9600LS(C) & MS-9600UDLS = 3,000 feet (914 m)
MS-9200UD & MS-9200UDLS = 3,000 feet (914 m)
12 to 18 AWG
MS-9050UD = 3,000 feet (914 m)
ES-50X & ES-200X = 3,000 feet (914 m)
Table 2.1 SLC Wiring Requirements in CLIP Mode
Wire Type
Belden 9583, Genesis 4410, Signal 98230, WPW D999
Belden 9581, Genesis 4408, Signal 98430, WPW D995
Belden 9575, Genesis 4406, & 4606, Signal 98630, WPW D991
Belden 9574, Genesis 4402 & 4602, Signal 98300, WPW D975
2.1.2 LiteSpeed Mode
The ES-50X, ES-200X, MS-9200UDLS, MS-9600LS, and MS-9600UDLS SLC can be programmed to operate in LiteSpeed mode for a quicker device response time. While shielded wire is not required, it is recommended that all SLC wiring be twisted-pair to minimize the effects of electrical interference. Use the following table to determine the specific wiring requirements for the SLC.
Wire Requirements
Distance in Feet (meters)
Twisted-pair, unshielded 10,000 feet (3,048 m)
8,000 feet (2,438 m)
4,875 feet (1,486 m)
3,225 feet (983 m)
Wire Size 12 AWG (3.1 mm2) 14 AWG (2.0 mm2) 16 AWG (1.3 mm2) 18 AWG (0.75 mm2)
Wire Type
Belden 5020UL & 6020UL, Genesis WG-4315 & WG-4515
Belden 5120UL & 6120UL, Genesis WG-4313 & WG-4513
Belden 5220UL & 6220UL, Genesis WG-4311 & WG-4511
Belden 5320UL & 6320UL, Genesis WG-4306 & WG-4506
Table 2.2 SLC Wiring Requirements in LiteSpeed Mode
2.2 Measuring Resistance & Length
2.2.1 Two-Wire SLC - Style 4 (Class B)
Loop Resistance
T-tapping of the SLC wiring is permitted for 2-wire Style 4 configurations. The total DC resistance from the control panel to each branch end cannot exceed 40 ohms. Measure DC resistance as detailed and shown below: 1. With power removed, short the termination point of one branch at a time and measure the DC resistance from the beginning of the
SLC to the end of that particular branch.
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Measuring Resistance & Length 2. Repeat this procedure for all remaining branches in the SLC.
Wiring Requirements
Short Point
SLC Out
SLC-meas1.wmf
Branch
Figure 2.1 Measuring DC Resistance of a Two-Wire SLC
Total Wire Length
The total wire length of all combined branches of one SLC cannot exceed the limits set forth in each system's instruction manual. Determine the total length in each SLC by summing the wire lengths of all branches of one SLC. In the following figure, the total length of the SLC is determined by adding the lengths of Branch A plus Branch B plus Branch C.
Branch A
Branch B
Branch C
SLC-meas2.wmf
SLC Terminal Block
Figure 2.2 Measuring the Total Wire Length - Two-Wire SLC
2.2.2 Four-Wire SLC Style 6 & 7 (Class A)
Loop Resistance
The total DC resistance of the SLC pair cannot exceed 40 ohms. Measure DC resistance as detailed and shown below. 1. Disconnect the SLC channel B (Out) and SLC channel A (Return) at the control panel. 2. Short the two leads of SLC channel A (Return). 3. Measure the resistance across the SLC channel B (Out) leads.
SLC-meas3.wmf
SLC Out Short Point SLC Return
Figure 2.3 Measuring DC Resistance of a Four-Wire SLC
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Wiring Requirements
Shield Wire Termination
Total Wire Length
The total wire length in a four-wire SLC cannot exceed the limits set forth in each system's instruction manual. The figure below identifies the output and return loops from SLC terminal on the control panel:
SLC channel B (output loop)
SLC channel A (return loop)
SLC-meas4.wmf
SLC Terminal Block
B+ B A A+
Figure 2.4 Measuring the Wire Length Four-Wire SLC
2.3 Shield Wire Termination
The drawing below shows the method of proper termination of the shield. Connect the metal conduit to the cabinet by using the proper connector. Feed the shielded wire through the conduit, into the control box. The shield drain wire must be connected to the "shield" terminal on the SLC terminal block.
NOTE: Use of good wiring practice consistent with local electrical codes is expected.
CAUTION:
! DO NOT LET THE SHIELD DRAIN WIRE OR THE SHIELD FOIL TOUCH THE SYSTEM CABINET OR BE CONNECTED
TO EARTH GROUND AT ANY POINT.
Cabinet
Shield Drain Wire
MS-9600 MS-9600LS MS-9600UDLS MS-9200UD MS-9200UDLS MS-9050UD
MS-9200
Shield Foil
SLC-shieldterm.wmf
Conduit
Figure 2.5 Shield Termination
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Control Panel Terminal Blocks
Wiring Requirements
2.4 Control Panel Terminal Blocks
The terminal blocks on the control panel circuit board that concern the SLC circuit are described below. For more information on this subject refer to the control panel's Instruction Manual.
2.4.1 MS-9200
TB4 provides three types of 24 VDC power; Unregulated, Nonresettable and Resettable. TB6 provides connections for the SLC wiring. 198 addresses are available per loop (99 detectors and 99 modules).
Unregulated Power
Nonresettable Power Resettable Power
Connections for wire shield
SHIELD
SLC
SLC
SLC-9200tb.wmf
TB4
TB6
SLC Out
Figure 2.6 MS-9200 Terminal Blocks
SLC Return
2.4.2 MS-9600, MS-9600LS, & MS-9600UDLS
TB3 provides two types of 24 VDC power; Nonresettable and Resettable. TB8 provides connections for the SLC wiring. 198 addresses are available per loop (99 detectors and 99 modules) while operating in CLIP mode. 318 addresses are available per loop (159 detectors and 159 modules) while operating in LiteSpeed mode.
Resettable Power
Nonresettable Power
Connections for wire shield
SLC SLC SLC SLC SHIELD
TB3
TB8
SLC-9600tb.wmf
SLC Out
Figure 2.7 MS-9600 Series Terminal Blocks
SLC Return
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Wiring Requirements
Control Panel Terminal Blocks
2.4.3 MS-9200UDLS (Software Version 3.0)
TB1 provides two types of 24 VDC power; Nonresettable and Resettable, jumper selectable by JP4 and JP6. TB10 provides connections for the SLC wiring. 198 addresses are available per loop (99 detectors and 99 modules).
Nonresettable Power- jumper selectable by JP4
Resettable Powerjumper selectable by JP6
Connections for wire shield
SLC
TB1
TB10
SLC-9200udtb.wmf
SLC Out
SLC Return
Figure 2.8 MS-9200UDLS (Rev 3) Terminal Blocks
2.4.4 MS-9200UD & MS-9200UDLS (Versions 1 and 2)
TB1 provides two types of 24 VDC power; Nonresettable and Resettable. TB10 provides connections for the SLC wiring. 198 addresses are available per loop (99 detectors and 99 modules).
Nonresettable Power
Resettable Power
Connections for wire shield
SLC
TB1
TB10
SLC-9200udtb.wmf
SLC Out
SLC Return
Figure 2.9 MS-9200UD & MS-9200UDLS (Rev 1 & 2) Terminal Blocks
2.4.5 MS-9050UD
24 VDC power may be supplied by a remote power supply such as the Fire-Lite FCPS-24FS6/8. TB2 provides connections for the SLC wiring. 50 addresses are available (any combination of detectors and modules).
Connections for wire shield
SLC-9050udtb.wmf
SLC Return SLC Out
Figure 2.10 MS-9050UD Terminal Block
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Control Panel Terminal Blocks
2.4.6 ES-50X
TB11 provides two types of 24 VDC power; Nonresettable and Resettable, user programmable.
TB12 provides connections for the SLC wiring. 50 addresses are available (any combination of detectors and modules).
Resettable or Nonresettable Poweruser programmable
24VDC
RTN RTN
SLC
Wiring Requirements
TB11 TB12
SLC-es50tb.wmf
SLC Out
SLC Return
Figure 2.11 ES-50X Terminal Block
2.4.7 ES-200X
TB11 provides two types of 24 VDC power; Nonresettable and Resettable, user programmable. PWR1 has a user programmable Class A wiring option. TB12 provides connections for the SLC wiring. 198 addresses are available per loop (99 detectors and 99 modules).
Resettable or Nonresettable Power, Class A optional, user programmable
Resettable or Nonresettable Poweruser programmable
PWR1 PWR2
RTN RTN
SLC
TB11 TB12
SLC-es200tb.wmf
SLC Out
SLC Return
Figure 2.12 ES-200X Terminal Blocks
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Section 3: SLC Circuits without Isolators
3.1 Overview
This chapter concerns itself with the two styles of circuits that do not require isolation devices: · NFPA Style 4 · NFPA Style 6
3.2 NFPA Style 4 SLC
NFPA Style 4 requirements can be met by using the diagram below. · T-tapping of the SLC wiring is allowed for Style 4 configuration.
Two-wire Addressable Detector
Addressable Module
T-tapped Circuits
B+ B
Control Panel SLC
Figure 3.1 Basic NFPA Style 4 SLC
SLC-style4.wmf
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NFPA Style 6 SLC
3.3 NFPA Style 6 SLC
NFPA Style 6 requirements can be met by using the diagram below. · T-tapping of the SLC wiring is NOT allowed for Style 6 configuration.
Two-wire Addressable Detector
SLC Circuits without Isolators
SLC Out SLC Return
Addressable Module
B+ B A A+
Control Panel SLC
Figure 3.2 Basic NFPA Style 6 SLC
SLC-style6.cdrwmf
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Section 4: SLC Circuits with Isolators
4.1 Fault Isolator Devices
There are three isolator devices used to protect critical elements of the SLC from faults on other SLC branches or segments.
· Fault Isolator Module I300 · Six Fault Isolator Module ISO-6 · Isolator Detector Base B224BI A Fault Isolator Module on both sides of a device, or the combination of Isolator Base and Isolator Module is required to comply with NFPA Style 7 requirements.
CAUTION: MAXIMUM ADDRESSABLE DEVICES
!
· If relay or sounder bases are not used, a maximum of 25 addressable devices can be connected between Isolator Modules and/or
Bases. When relay or sounder bases are used, the maximum number of addressable devices that can be connected between Isolators
is reduced to seven. Isolator modules will not function properly when these limits are exceeded.
· When more than 100 Isolator Modules are connected to an SLC loop, the address capacity of the loop is reduced by two (2) addresses
for every isolator device in excess of 100.
4.1.1 Isolating an SLC Branch
The module continuously monitors the circuit connected to terminals 3() and 4(+). Upon power-up, an integral relay is latched on. The module periodically pulses the coil of this relay. A short circuit on the SLC resets the relay. The module detects the short and disconnects the faulted SLC branch or segment by opening the positive side of the SLC (terminal 4). This isolates the faulty branch from the remainder of the loop preventing a communication problem with all other addressable devices on the remaining branches (labeled "Continuation of the SLC" in the figure below). During a fault condition, the control panel registers a trouble condition for each addressable device which is isolated on the SLC segment or branch. Once the fault is removed, the module automatically reapplies power to the SLC branch or segment.
4.1.2 Wiring an Isolator Module
The figure below shows typical wiring of an I300 Isolator Module:
Continuation of the SLC
SLC-isowire2.wmf
IN (-) IN (+) OUT (-) OUT (+)
SLC Isolated branch
of the SLC
Figure 4.1 Wiring an I300 Module
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Fault Isolator Devices
The figure below shows typical wiring of an ISO-6 Isolator Module:
SLC in from FACP or previous device
status indicators
SLC Circuits with Isolators
ISOLATOR 1 ISOLATOR 2 ISOLATOR 3 ISOLATOR 4 ISOLATOR 5 ISOLATOR 6
iso-6wire.wmf
SLC out to next device
+ + -
Figure 4.2 Wiring an ISO-6 Module
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SLC Circuits with Isolators
NFPA Style 4 SLC Using Isolator Modules
4.2 NFPA Style 4 SLC Using Isolator Modules
A variation of a Style 4 operation using an I300 isolator module to protect each branch of the SLC is shown below. Refer to Figure 4.1 for I300 wiring and to Section 4.1 for limitations.
Isolator Module
Isolated Branch
Two-wire Addressable Detector
Isolator Module
Isolated Branch
Isolator Module
Isolated Branch
Addressable Pull Station
B B+
Control Panel SLC
Figure 4.3 NFPA Style 4 SLC Using an I300 Isolator Module
SLC-style4iso.wmf
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NFPA Style 4 SLC Using Isolator Modules
SLC Circuits with Isolators
A variation of a Style 4 operation using an ISO-6 isolator module to protect each branch of the SLC is shown below. Each terminal on the ISO-6 acts as a single I300 module. Refer to Figure 4.2 for ISO-6 wiring and to Section 4.1 for limitations. Note that the ISO-6 cannot accept two wires at one pin. Wire Style 4 SLC loops as shown in the figure below.
Two-wire Addressable Detector
ISOLATOR 1
Out Out + In In +
Isolated Branch
Addressable Pull Station
ISOLATOR 2
Isolated Branch
ISOLATOR 3
ISOLATOR 4
ISOLATOR 5
SLC-style4ISO-6.wmf
Isolated Branch
ISOLATOR 6
ISO-6
Control Panel SLC
Figure 4.4 NFPA Style 4 SLC Using an ISO-6 Isolator Module
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SLC Circuits with Isolators
NFPA Style 6 SLC Using Isolator Modules
4.3 NFPA Style 6 SLC Using Isolator Modules
A variation of Style 6 operation using isolator modules to protect a section of the SLC. By flanking each group of devices with an I300 fault isolator module, each group is protected from faults that may occur in the other groups. For example, a fault in Section B will not effect Sections A & C. The isolator modules on either side of Section B will open the loop. Section A will still operate from power on the SLC Out side and Section C will operate from the SLC Return side.
· A combination of isolator modules and isolator bases may be used. · T-tapping is NOT allowed within the Style 6 configuration. · Isolator modules shall be within 20 feet (6.1 meters) of device and must be enclosed in metal conduit.
Isolator Module
Isolator Module
Two-wire Addressable Detector
Section B
Section C
Section A
Addressable Pull Station
Isolator Module
Additional isolator module required when first device in the section is more than 20 feet from the control panel.
Isolator Module
SLC Out
SLC Return
Control Panel
Isolator Module
Isolator Module
Figure 4.5 NFPA Style 6 SLC Using Isolator Modules
SLC-style6iso.wmf
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NFPA Style 7 SLC Using Isolator Modules
SLC Circuits with Isolators
4.4 NFPA Style 7 SLC Using Isolator Modules
Style 7 operation requires using isolator modules (or a combination of isolator modules and isolator bases) before and after each device. Flanking each device with an isolator provides fault protection to all other devices on the loop.
· T-tapping is NOT allowed within the Style 7 wiring configuration. · When a detector base or pull station is used, install isolator modules on both sides of the device. · Connections between isolator modules and the device they isolate must be "close-nippled" conduit, within 3 feet (91.44 cm).
1
3
Isolator
Module
1
3
Isolator
Module
34
Isolator Module
Two-wire Addressable
Detector
21
Isolator Module
Two-Wire Addressable Detector
34
Isolator Module
Addressable Pull Station
21
Isolator Module
34
Isolator Module
SLC Out
SLC Return
21
Isolator Module
SLC-style7iiso.wmf
Control Panel
Figure 4.6 NFPA Style 7 SLC Using Isolator Modules
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Section 5: Monitor Modules
5.1 Descriptions
These addressable modules monitor conventional contact-type alarm initiating devices. You can configure module circuits as an NFPA Style B (Class B) or Style D (Class A) Initiating Device Circuits (IDC). There is no limit to the number of contact-type devices installed on a monitor module circuit.
NOTE: For more information on the individual module specifications refer to the Installation Instructions that are provided with these devices.
5.1.1 Addressable Monitor Modules
MMF-300 Monitor Module
This is an addressable module that monitors either a Style B (Class B) or Style D (Class A) circuit of dry-contact input devices. This module is capable of participating in degraded mode where supported by the FACP.
FMMtpH.wmf
IDC Return IDC Return +
IDC Out + IDC Out -
SLC SLC+
Rotary Switches
Areas used to record the device address and SLC number.
Figure 5.1 MMF-300 Monitor Module
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Descriptions
Monitor Modules
MMF-300-10 Monitor Module
This is an addressable monitor module intended to interface between the FACP and up to ten (10) Style B (Class B) or five (5) Style D (Class A) IDCs containing normally open contact devices. This type of module is contained in either a BB-2 or BB-6 cabinet. The BB-2 can accommodate up to 2 modules and the BB-6, which requires the CH-6 chassis, can accommodate up to 6 modules. See the Installation Instructions provided with module for proper installation into a cabinet.
mmf-300-10.wmf
Style Y or Style Z Select Remove shunt for Style Z circuits
Disable Address Place shunt in: Disable 1 position to disable highest module address Disable 2 position to disable highest two module addresses
SLC Address Set rotary switches to base (first) address of modules
Figure 5.2 MMF-300-10 Monitor Module
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Monitor Modules
Descriptions
5.1.2 Zone Interface Modules
MMF-302 Module
Similar to the MMF-300, this module is used to monitor a single IDC of UL listed compatible two-wire 24 volt conventional smoke detectors. Refer to the Device Compatibility Document.
FZMtpH.wmf
24 VDC 24 VDC + IDC Return IDC Return + IDC Out + IDC Out -
SLC SLC+
Rotary Switches
Areas used to record the device address and SLC number.
Figure 5.3 MMF-302 Interface Module
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Descriptions
Monitor Modules
MMF-302-6 Interface Module
This monitor module is intended to interface between the FACP and a conventional alarm system with up to six (6) Style B (Class B) or three (3) Style D (Class A) IDCs containing normally open contact devices. This monitor module is contained in either a BB-2 or BB-6 cabinet. The BB-2 can accommodate up to 2 modules and the BB-6, which requires the CH-6 chassis, can accommodate up to 6 modules. See the Installation Instructions provided with module for proper installation into cabinet.
T1 + + T0 + +
T2 ++
T3 ++
T4 ++
T6 T5
6 5 4
3
A/B SELECT A/B SELECT
DISABLE 1 DISABLE 2
2 10
BASE ADDRESS
7
8
9 10 11
13 1514
J1 SW1
12
4
3
6 5
2 10
7
89
BASE ADDRESS +0 BASE ADDRESS +1 BASE ADDRESS +2 BASE ADDRESS +3 BASE ADDRESS +4 BASE ADDRESS +5
Style Y or Style Z Select Remove shunt for Style Z circuits
Disable Address Place shunt in: Disable 1 position to disable highest module address Disable 2 position to disable highest two module addresses
SLC Address Set rotary switches to base (first) address of modules
Figure 5.4 MMF-302-6 Interface Module
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Monitor Modules
Installation
5.1.3 Dual Monitor Module
MDF-300 Module
The MDF-300 is similar to the MMF-300 but provides for two independent 2-wire IDCs at two separate, consecutive addresses.
{ 9 H
Address +1 8 H+
{ Base Address
7L+ 6L
Rotary Switches
SLC SLC+
fmmtph.wmf
Areas used to record the device address and SLC number.
Figure 5.5 MDF-300 Dual Monitor Module
5.1.4 Mini Monitor Module
MMF-301 Monitor Module
The MMF-301 is functionally and electrically identical to an MMF-300, but is offered in a smaller package for mounting directly in the electrical box of the Style B (Class B) device being monitored.
Rotary Switches
Label Use to record the device address and SLC number.
IDC (+) IDC (-)
SLC (+) SLC (-)
FMM-101.wmf
Figure 5.6 MMF-301 Mini Monitor Module
5.2 Installation
When installing any of these modules DO NOT mix the following services that the IDC provides: · Fire alarm service · Automatic and manual waterflow alarm service with normally open contact devices · Sprinkler supervision with normally open contact devices
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Installation
Monitor Modules
5.2.1 Setting an SLC address for a Single Point Module
Each module can be set to one of 159 addresses (01-159) and is factory preset with an address of "00".
NOTE: The MS-9050UD and ES-50X can support addresses 01 - 50. The MS-9200, MS-9200UD, MS-9200UDLS, and ES-200X, can support module addresses of 01 - 99. The MS-9600, MS-9600LS, and MS-9600UDLS can support module addresses 01 - 159. The plastic stop located on the Tens switch must be removed to set addresses above 99.
To set an SLC address, use a screwdriver to adjust the rotary switches on the module to the desired address. The module below is set at "35". When finished, mark the address on the module face in the place provided.
SLC-setadd.cdr,SLC-setaddtpH.wmf, SLCbrktabs.wmf
Modules with Rotary Switches
in vertical position
5 4
6
7
8
910 11
3
12
2
1
0
13 1514
TENS
56 789 4 3 210
ONES
Modules with Rotary Switches in
horizontal position
Breakaway Tab - Modules come with a raised breakaway tab on the TENS rotary switch. This tab must be removed when the module is on an FACP that uses more than 99 addresses.
Dual monitor modules: On dual monitor modules, only even numbers appear on the ONES rotary switch. The module takes both the selected address and the next-higher address.
Figure 5.7 Setting an SLC Address on a Single Point Module
5.2.2 Setting an SLC address for a Multi-Point Module
The SLC address of a multi-point module is set in the same fashion as a single-point module. In Class B operation, each MMF-300-10, MMF-302-6, CMF-300-6, and CRF-300-6 module is set to a base address. The remaining module points are automatically assigned to the next higher SLC addresses. For example, if the base address of an MMF-300-10 is set to 28, the next module points will be addressed to 29, 30, 31, 32, 33, 34, 35, 36 and 37. In Class A operation, alternate module points are paired together, resulting in a total of five module points. For example, if the base address of an MMF-300-10 is set to 28, then 30, 32, 34 and 36 will be automatically assigned to the remaining module points and 29, 31, 33, 35 and 37 are available for use by other modules.
NOTE: The MS-9050UD and ES-50X can support addresses 01 - 50. The MS-9200, MS-9200UD, MS-9200UDLS, and ES-200X, can support module addresses of 01 - 99. The MS-9600, MS-9600LS, and MS-9600UDLS can support module addresses 01 - 159. The plastic stop located on the Tens switch must be removed to set addresses above 99.
To set an SLC address, use a common screwdriver to adjust the rotary switches on the module to the desired address. The module below is set at "28".
6 5 4
3
2 10
Rotary Switches
13 1514
12
9 10 11
8
7
TENS Plastic Stop
4
multroty.wmf
6 5
3 2
10
7
ONES
8
9
Figure 5.8 Setting an SLC Address on a Multi-Point Module
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Monitor Modules
MMF-300 Wiring Diagrams
5.3 MMF-300 Wiring Diagrams
Following are wiring diagrams that depict NFPA Style B (Class B) and D (Class A) Initiating Device Circuits (IDCs) using MMF-300 monitor modules. The Initiating Device Circuit (IDC) is supervised and current-limited to 210 microamperes @ 24 VDC (nominal).
5.3.1 Wiring a NFPA Style B IDC with an MMF-300
Connect the SLC wiring to the module terminals 1 () and 2 (+). Each module takes one address on the SLC. Use the rotary switches on the module to set it to the required SLC address. Refer to "Setting an SLC address for a Single Point Module" on page 33. The figure below shows typical wiring for a supervised and power-limited NFPA Style B IDC using an MMF-300 module. · Refer to the Device Compatibility Document for compatible smoke detectors. · See "Power Considerations" on page 63 for information on supervising 24 VDC power.
From Supply
Manual pull station
Heat detector
24 VDC Four-wire Detector Base
24 VDC Power Filtered, Regulated, Resettable
47K ELR (supplied with module)
MMF-300
To Next IDC or Supervision Device
SLC
SLC-idcB1tpH.wmf
IDC
Figure 5.9 Typical Style B IDC Wiring with an MMF-300
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MMF-300 Wiring Diagrams
Monitor Modules
5.3.2 Wiring a NFPA Style D IDC with an MMF-300
Connect the SLC wiring to the module terminals 1 () and 2 (+). Each module takes one address on the SLC. Use the rotary switches on the module to set it to the required SLC address. Refer to "Setting an SLC address for a Single Point Module" on page 33. The figure below shows typical wiring for a supervised and power-limited NFPA Style D (Class A) IDC using an MMF-300 module. · Refer to the Device Compatibility Document for compatible smoke detectors. · See "Power Considerations" on page 63 for information on supervising 24 VDC power.
From Supply
Manual pull station
Heat detector
24 VDC Four-wire Detector Base
24 VDC Power Filtered, Regulated, Resettable
MMF-300
To Next IDC or Supervision Device
SLC
SLC-idcD1tpH.wmf
IDC
Figure 5.10 Typical Style D IDC Wiring with an MMF-300
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Monitor Modules
MMF-300 Wiring Diagrams
5.3.3 MMF-300 Wiring for Emergency Alarm System Applications
Connect the SLC wiring to the module terminals 1 () and 2 (+). Each module takes one address on the SLC. Use the rotary switches on the module to set it to the required SLC address. Refer to "Setting an SLC address for a Single Point Module" on page 33. The figure below shows typical wiring for a supervised and power-limited Emergency Signaling circuit using an MMF-300 module. · See "Power Considerations" on page 63 for information on supervising 24 VDC power. · See Section 6, "Control Modules" for instructions on using control modules as NACs on an SLC. · Refer to the Device Compatibility Document #15384 for compatible smoke detectors.
47K ELR (supplied with module)
+- SLC
+
UL-listed Signaling appliance such as the Fire-Lite FSS-2400E
SLC-emer.wmf
IDC
MMF-300 Module programmed for Tornado, Hazard, or Medical operation. Refer to the control panel
installation manual.
Figure 5.11 Emergency Signaling Wiring with an MMF-300
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MMF-300-10 Wiring Diagrams
Monitor Modules
5.4 MMF-300-10 Wiring Diagrams
Following are wiring diagrams that depict NFPA Style B (Class B) and D (Class A) Initiating Device Circuits (IDCs) using MMF-30010 monitor modules. The Initiating Device Circuit (IDC) is supervised and current-limited to 1.0 milliampere @ 24 VDC (nominal).
5.4.1 Wiring a NFPA Style B IDC with an MMF-300-10
Connect the SLC wiring to the module terminals T5 as shown below. Use the rotary switches on the module to set the base SLC address. Each module takes ten addresses on the SLC. The remaining module points are automatically assigned to the next nine higher addresses. Refer to "Setting an SLC address for a Multi-Point Module" on page 33. DO NOT set the lowest address above 150 (41 for the MS-9050UD or ES-50X, 90 for the MS-9200, MS-9200UD, MS-9200UDLS, or ES-200X), as the other module points will be assigned to nonexistent addresses. The figure below shows typical wiring for a supervised and power-limited NFPA Style B IDC using an MMF-300-10 module. · Refer to the Device Compatibility Document for compatible smoke detectors. · See "Power Considerations" on page 63 for information on supervising 24 VDC power.
24 VDC Power Filtered, Regulated, Resettable
47K ELR (supplied with module)
Manual Pull Station
Heat Detector
24 VDC Four-wire Detector Base
IDC
SLC
MMF-300-10
Out
SLC-idcB4.wmf
Figure 5.12 Typical Style B IDC Wiring with an MMF-300-10
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Monitor Modules
MMF-300-10 Wiring Diagrams
5.4.2 Wiring a NFPA Style D IDC with an MMF-300-10
Connect the SLC wiring to the module terminals T5 as shown below. Use the rotary switches on the module to set the base SLC address. Each module takes five alternating addresses on the SLC. The remaining module points are automatically assigned to the next four higher addresses. (Example: 28, 30, 32, 34 and 36). Refer to "Setting an SLC address for a Multi-Point Module" on page 33. DO NOT set the lowest address above 150 (41 for the MS-9050UD or ES-50X, 90 for the MS-9200, MS-9200UD, MS-9200UDLS, or ES-200X), as the other module points will be assigned to nonexistent addresses. The figure below shows typical wiring for a supervised and power-limited NFPA Style D (Class A) IDC using an MMF-300-10 module. · Refer to the Device Compatibility Document for compatible smoke detectors. · See "Power Considerations" on page 63 for information on supervising 24 VDC power.
24 VDC Power Filtered, Regulated, Resettable
24 VDC Four-wire Detector Base
Manual Pull Station
Heat Detector
IDC
IDC
Return
Out
SLC
MMF-300-10
SLC-idcD3.cdwmf
Figure 5.13 Typical Style D IDC Wiring with an MMF-300-10
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MDF-300 Wiring Diagrams
Monitor Modules
5.5 MDF-300 Wiring Diagrams
Following is a wiring diagrams that depict NFPA Style B (Class B) Initiating Device Circuits (IDCs) using MDF-300 Dual Monitor Modules.
5.5.1 Wiring a NFPA Style B IDC with an MDF-300
Connect the SLC wiring to the module terminals 1 () and 2 (+). Use the rotary switches on the module to set it to the SLC address. Each dual module takes two addresses on the SLC. Circuit `L' corresponds to the address set on the rotary switches, which will be an even number. Circuit `H' will automatically respond to the next higher address, which will be an odd number. Use caution to avoid duplicate addressing of modules on the system. Refer to "Setting an SLC address for a Single Point Module" on page 33. Each IDC (H & L) is power limited to 230 microamperes @ 24 VDC. The figure below shows typical wiring for a supervised and power-limited NFPA Style B IDC using an MDF-300-10 module. · Refer to the Device Compatibility Document for compatible smoke detectors. · See "Power Considerations" on page 63 for information on supervising 24 VDC power.
Manual Pull Station
47K ELR Heat Detector
Base Address (IDC Circuit L)
Manual Pull Station
47K ELR
MDF-300
Base +1 Address
T11
(IDC Circuit H)
T10
T9
T8
T7
T6
SLC
T1 T2 T3 T4 T5
SLC-idcB3fdm1tph.wmf
Figure 5.14 Typical Style B IDC Wiring with an MDF-300
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Monitor Modules
MMF-302 Wiring Diagrams
5.6 MMF-302 Wiring Diagrams
Following are wiring diagrams that concern NFPA Style B (Class B) and D (Class A) Initiating Device Circuits (IDCs) using MMF-302 Zone Interface Modules.
5.6.1 Wiring a NFPA Style B IDC with an MMF-302
Connect the SLC wiring to the module terminals 1 () and 2 (+). Each module takes one address on the SLC. Use the rotary switches on the module to set it to the required SLC address. Refer to "Setting an SLC address for a Single Point Module" on page 33. The IDC is supervised and power limited to 230 microamperes @ 24 VDC. The figure below shows typical wiring for a supervised and power-limited NFPA Style B IDC using an MMF-302 module. · Refer to the Device Compatibility Document for compatible smoke detectors. · 24 VDC power must be provided from a UL listed power supply for fire protection use. This power is inherently supervised by the
module. · See "Power Considerations" on page 63 for information on 24 VDC power.
Two-wire smoke detectors
24 VDC Resettable power. 90 mA External 24 volt supply required
3.9K ELR
(supplied with module)
SLC
MMF-302
SLC-idcB2tpH.wmf
IDC
Figure 5.15 Typical Style B IDC Wiring with an MMF-302
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MMF-302 Wiring Diagrams
Monitor Modules
5.6.2 Wiring a NFPA Style D IDC with an MMF-302
Connect the SLC wiring to the module terminals 1 () and 2 (+). Each module takes one address on the SLC. Use the rotary switches on the module to set it to the required SLC address. Refer to "Setting an SLC address for a Single Point Module" on page 33. The figure below shows typical wiring for a supervised and power-limited NFPA Style D (Class A) IDC using an MMF-302 module. · Refer to the Device Compatibility Document for compatible smoke detectors. · 24 VDC power must be provided from a UL listed power supply for fire protection use. This power is inherently supervised by the
module. · See "Power Considerations" on page 63 for information on 24 VDC power.
Two-wire smoke detectors
24 VDC Resettable power. 90 mA External 24 volt supply required
SLC MMF-302
IDC
3.9K ELR (supplied with module)
Figure 5.16 Typical Style D IDC Wiring with an MMF-302
SLC-idcD2tpH.wmf
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Monitor Modules
MMF-302-6 Wiring Diagrams
5.7 MMF-302-6 Wiring Diagrams
Following are wiring diagrams that concern NFPA Style B (Class B) and D (Class A) Initiating Device Circuits (IDCs) using MMF-3026 monitor modules.
5.7.1 Wiring a NFPA Style B IDC with an MMF-302-6
Connect the SLC wiring to the module terminals T0 as shown below.
Use the rotary switches on the module to set the base SLC address. Each module takes six addresses on the SLC. The remaining module points are automatically assigned to the next five higher addresses. Refer to "Setting an SLC address for a Multi-Point Module" on page 33.
DO NOT set the lowest address above 150 (41 for the MS-9050UD or ES-50X, 90 for the MS-9200, MS-9200UD, MS-9200UDLS, or ES-200X), as the other module points will be assigned to nonexistent addresses.
The figure below shows typical wiring for a supervised and power-limited NFPA Style B IDC using an MMF-302-6 module.
· Refer to the Device Compatibility Document for compatible smoke detectors. · 24 VDC power must be provided from a UL listed power supply for fire protection use. This power is inherently supervised by the
module. · See "Power Considerations" on page 63 for information on 24 VDC power.
3.9K ELR (supplied with module)
Two-wire smoke detectors
24 VDC resettable power
IDC Out
SLC
MMF-302-6
SLC-idcB5.wmf
Figure 5.17 Typical Style B IDC Wiring with an MMF-302-6
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MMF-302-6 Wiring Diagrams
Monitor Modules
5.7.2 Wiring a NFPA Style D IDC with an MMF-302-6
Connect the SLC wiring to the module terminals T0 as shown below.
Use the rotary switches on the module to set it to the SLC addresses. Each module takes three alternating addresses on the SLC. The remaining module points are automatically assigned to the next two higher addresses. (Example: 28, 30 and 32). Refer to "Setting an SLC address for a Multi-Point Module" on page 33.
DO NOT set the lowest address above 150 (41 for the MS-9050UD or ES-50X, 90 for the MS-9200, MS-9200UD, MS-9200UDLS, or ES-200X), as the other module points will be assigned to nonexistent addresses.
The figure below shows typical wiring for a supervised and power-limited NFPA Style D (Class A) IDC using an MMF-302-6 module.
· Refer to the Device Compatibility Document for compatible smoke detectors. · 24 VDC power must be provided from a UL listed power supply for fire protection use. This power is inherently supervised by the
module. · See "Power Considerations" on page 63 for information on 24 VDC power.
Two-wire smoke detectors
24 VDC resettable power SLC
IDC
IDC
Return
Out
MMF-302-6
Figure 5.18 Typical Style D IDC Wiring with an MMF-302-6
SLC-idcD4.wmf
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Section 6: Control Modules
When using a Control Module as a Notification Appliance Circuit (NAC), the isolation described in the section titled Section 4, "SLC Circuits with Isolators" which begins on page 22, is required or Riser Conductors must be installed in accordance with the survivability from attack by fire requirements in National Fire Alarm Code, NFPA 72.
6.1 Description
The CMF-300 and CMF-300-6 modules are addressable modules that can be used for monitoring and switching 24 VDC Notification Appliance Circuit (NAC) power for NFPA Style Y (Class B) and NFPA Style Z (Class A) circuits. Ratings for the relay contacts on the module are:
Load Description Resistive Resistive Resistive Resistive
Inductive (L/R = 5ms) Inductive (L/R = 2ms) Inductive (PF = 0.35)
Application Non-Coded Coded Non-Coded Non-Coded
Coded Coded Non-Coded
Maximum Voltage 30 VDC 30 VDC 110 VDC
125 VAC (CMF-300) 70.7 VAC (CMF-300-6)
30 VDC 30 VDC 125 VAC (CMF-300) 70.7 VAC (CMF-300-6)
Current Rating 3.0 A 2.0 A 0.9 A 0.9 A
0.5 A 1.0 A 0.5 A
NOTE: For more information on module specifications, refer to the Installation Instructions provided with these devices.
6.2 CMF-300 Installation
6.2.1 Setting an SLC address for a CMF-300 Module
Each module is factory preset with an address of "00". To set an SLC address refer to "Setting an SLC address for a Single Point Module" on page 33.
6.2.2 Wiring a Notification Appliance Circuit (NAC) with a CMF-300
The figure below shows the connections to wire a module for powering a 24 VDC NAC:
24 VDC Nonresettable Power () 24 VDC Nonresettable Power (+)
Style Z NAC (+) Style Z NAC () Style Y/Z NAC () Style Y/Z NAC (+)
NOTE: Module polarities are shown in alarm condition.
SLC () SLC (+)
FCMFZMtph.wmf
Figure 6.1 CMF-300 Wiring Connections
6.3 Wiring a CMF-300 Module
This section contains instructions and diagrams for wiring a Signaling Line Circuit with a CMF-300 as a Notification Appliance Circuit (NAC).
6.3.1 Wiring a Style Y NAC (Two-Wire) with Addressable Control Modules
A supervised and power-limited NFPA Style Y (Class B) NAC using a CMF-300 module. Polarized alarm notification appliances are shown connected to the module in a two-wire configuration. Refer to the Device Compatibility Document for compatible notification appliances and relays. · See "Power Considerations" on page 63 for information on monitoring 24 VDC power. · Each module can control 2 amps of resistive load (on electronic devices) or 1 amp of inductive load (on mechanical bells and
horns). · 24 VDC power must be provided from a UL listed power supply for fire protection use.
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Wiring a CMF-300 Module
Control Modules
· A power supervision relay is required only on the last module of the power run. · Do not T-tap or branch a Style Y circuit. · Terminate the circuit across the last device using an End-of-Line Resistor 47K, 1/2-watt,
P/N SSD A2143-00 (ELR-47K in Canada). · Do not loop wiring under the screw terminals of any notification appliance. To maintain supervision, break the wire run at each
device.
24 VDC Nonresettable power
SLC CMF-300
ELR 47K, 1/2-watt
24 VDC Notification Appliances
NOTE: A power supervision relay is required only on the last module of the power run.
SLC-nacY.wmf
NAC Note: Module polarities are shown in alarm condition
Figure 6.2 NFPA Style Y Notification Appliance Circuit
6.3.2 Wiring a Style Z NAC (Four-Wire) with Addressable Control Modules
A supervised and power-limited NFPA Style Z (Class A) NAC using a CMF-300 module. Polarized alarm notification appliances are shown connected to the module in a four-wire configuration.
NOTE: Refer to the Device Compatibility Document for compatible notification appliances and relays.
· See "Power Considerations" on page 63 for information on monitoring 24 VDC power. · Each module can control 2 amps of resistive load (on electronic devices) or 1 amp of inductive load (on mechanical bells and
horns). · 24 VDC power must be provided from a UL listed power supply for fire protection use. · A power supervision relay is required only on the last module of the power run. · Do not T-tap or branch a Style Z circuit. · Do not loop wiring under the screw terminals of any notification appliance. To maintain supervision, break the wire run at each
device.
NOTE: A power supervision relay is required only on the last module of the power.
24 VDC Nonresettable power
24 VDC notification appliances
SLC CMF-300
NAC Return NAC Out
SLC-nacZtpH.wmf
Note: Module polarities are shown in alarm condition.
Figure 6.3 NFPA Style Z Notification Appliance Circuit
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Control Modules
CMF-300-6 Installation
6.4 CMF-300-6 Installation
6.4.1 Cabinet Installation
This type of module is contained in either a BB-2 cabinet. The BB-2 can accommodate up to 2 modules and the BB-6, which requires the CH-6, can accommodate up to 6 modules. See the Installation Instructions provided with module for proper installation into cabinet.
6.4.2 Setting an SLC address for an CMF-300-6 Module
In "Style Y" operation each CMF-300-6 module can be set to one of 154 base addresses (01-154). The remaining module points are automatically assigned to the next five higher SLC addresses. For example, if the base address is set to 28, the next five module points will be addressed to 29, 30, 31, 32 and 33. In "Style Z" operation alternate module points are paired together, resulting in a total of three module points. For example, if the base address is set to 28, then 30 and 32 will be automatically assigned to the remaining module points and 29, 31 and 33 are available to be used for other modules on the SLC. DO NOT set the lowest address above 154 (45 for the MS-9050UD or ES-50X, 94 for the MS-9200, MS-9200UD, MS-9200UDLS, or ES-200X), as the other module points will be assigned to nonexistent addresses.
NOTE: The MS-9050UD and ES-50X can support addresses 01 - 50. The MS-9200, MS-9200UD, MS-9200UDLS, and ES-200X can support module addresses of 01 - 99. The MS-9600, MS-9600LS, MS-9600LSC, and MS-9600UDLS can support module addresses 01 159.
To set an SLC address, use a common screwdriver to adjust the rotary switches on the module to the desired address. See Figure 6.4 on page 47.
NOTE: For use with the MS-9600, MS-9600LS, MS-9600LSC, and MS-9600UDLS, remove the stop on the upper rotary switch.
6.4.3 Setting NACs as Style Y or Style Z
To use this module for Style Y (Class B) operation ascertain that a small shunt is installed on the "A/B SELECT" set of pins. (As shipped). To use this module for Style Z (Class A) operation remove the small shunt from the "A/B SELECT" set of pins. See drawing below and Figure 6.4 on page 47.
6.4.4 Disabling Unused Module Addresses
A shunt is used, in conjunction with a pin block, to disable a maximum of three (3) unused module addresses. If two module addresses are disabled, the lowest four addresses will be functional, while the highest two will be disabled. For example, if the shunt is placed on `DISABLE 2' and the base address is set to 28, the module addresses will be assigned to 28, 29, 30 and 31. In Style Z operation, placing a small shunt on `DISABLE 3' will disable all three addresses. Placing it on `DISABLE 2' will disable two out of three addresses. To disable addresses, securely place one of the supplied small shunts onto the desired set of pins. See drawing and Figure 6.4 on page 47.
J1
A/B SELECT DISABLE 1 DISABLE 2 DISABLE 3
SLC-disable1.wmf
6.4.5 Short Circuit Protection
Protection is disabled for each module address when there is a large shunt installed on the corresponding pins of the pin block (as shipped, all six addresses are disabled). When enabled, the module will not switch power supply if a short circuit condition exists on a NAC. To enable "Short Circuit Protection" for an address, remove the large shunt from the corresponding pins of the pin block. See Figure 6.4 on page 47. Place unused shunts on single pin to store on board for future use.
6.4.6 Features Not Supported
The "Synchronization" and "Power Supply Monitoring" features are not supported at this time.
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CMF-300-6 Installation
6.4.7 Circuit Board Information
Synchronization Generator Not Supported. DO NOT remove shunts.
Control Modules
Power Supply Monitors Not Supported. DO NOT remove shunts.
CMF-300-6.wmf
#1 #2 #3 #4 #5 #6
Status Indicators Green LEDs are controlled by FACP to indicate status of each module address.
Disable Address Place shunt onto required pins.
Select Style Y (Class B) or
Style Z (Class A) Remove shunt for Style Z (Class A).
SLC Address Set rotary switches to address required.
Short Circuit Protection - Remove shunt from the corresponding pins to enable. Shunt #1 for first address, #2 for second address, etc.
Figure 6.4 CMF-300-6 Control Module Settings
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Control Modules
Wiring a CMF-300-6 Module
6.5 Wiring a CMF-300-6 Module
This section contains basic instructions and diagrams for wiring a Signaling Line Circuit with a CMF-300-6 as a Notification Appliance Circuit (NAC). For more detailed information on wiring a CMF-300-6 Control Module, refer to the Installation Instructions provided with the module. Included in these instructions are wiring diagrams concerning a single power supply being shared by multiple NACs and audio NAC configurations.
6.5.1 Wiring a Style Y NAC (Two-Wire)
A supervised and power-limited NFPA Style Y (Class B) NAC with a single power supply dedicated to a single NAC using a CMF-3006 module. Polarized alarm notification appliances are shown connected to the module in a two-wire configuration.
NOTE: Refer to the Device Compatibility Document for compatible notification appliances and relays.
· See "Power Considerations" on page 63 for information on monitoring 24 VDC power. · Each module can control 2 amps of resistive load (on electronic devices) or 1 amp of inductive load (on mechanical bells and
horns). · 24 VDC power must be provided from a UL listed power supply for fire protection use. · A power supervision relay is required only on the last module of the power run. · Do not T-tap or branch a Style Y circuit. · Terminate the circuit across the last device using an End-of-Line Resistor 47K, 1/2-watt,
P/N SSD A2143-00 (ELR-47K in Canada). · Do not loop wiring under the screw terminals of any notification appliance. To maintain supervision, break the wire run at each
device.
Power Supervision Relay (EOLR-1)
24 VDC nonresettable power
ELR 47K, 1/2-watt
24 VDC notification appliances
NAC Out
+
SLC
Relay Connector Assembly
+
CMF-300-6
SLC-nacY2.wmf
T0 +0
+ +
T10
+
+ T1
+
+ T2
+
+ T3
+
+ T4
+
+ T5
+1
T11 T12
+2
T13
+3
T14
+4
+5
T15
T16
Figure 6.5 NFPA Style Y Notification Appliance Circuit
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Wiring a CMF-300-6 Module
Control Modules
6.5.2 Wiring a Style Z NAC (Four-Wire)
A supervised and power-limited NFPA Style Z (Class A) NAC with a single power supply dedicated to a single NAC using a CMF-3006 module. Polarized alarm notification appliances are shown connected to the module in a four-wire configuration.
NOTE: Refer to the Device Compatibility Document for compatible notification appliances and relays.
· See "Power Considerations" on page 63 for information on monitoring 24 VDC power. · Each module can control 2 amps of resistive load (on electronic devices) or 1 amp of inductive load (on mechanical bells and
horns). · 24 VDC power must be provided from a UL listed power supply for fire protection use. · A power supervision relay is required only on the last module of the power run. · Do not T-tap or branch a Style Z circuit. · Do not loop wiring under the screw terminals of any notification appliance. To maintain supervision, break the wire run at each
device.
Power Supervision Relay (EOLR-1)
24 VDC nonresettable power
24 VDC notification appliances
NAC Out
SLC
NAC
Return
CMF-300-6
SLC-nacZ3.cwmf
Power Supply Jumper Relay Connector Assembly
Figure 6.6 NFPA Style Z Notification Appliance Circuit
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Section 7: Relay Modules
7.1 Description
The CRF-300 and the CRF-300-6 modules are addressable modules that provides Form-C relay contacts. Ratings for the relay contacts on the module are:
Load Description
Resistive Resistive Resistive Resistive Inductive (L/R = 5ms) Inductive (L/R = 2ms) Inductive (PF = 0.35) Inductive (PF = 0.35)
Application
Non-Coded Coded Non-Coded Non-Coded Coded Coded Non-Coded Non-Coded
Maximum Voltage 30 VDC 30 VDC 110 VDC 125 VAC 30 VDC 30 VDC 70.7 VAC 125 VAC
Current Rating 3.0 A 2.0 A 0.9 A 0.9 A 0.5 A 1.0 A 0.7 A 0.5 A
NOTE: For more information on the module specifications refer to the Installation Instructions provided with these devices.
7.2 CRF-300 Installation & Wiring 7.2.1 Setting an SLC address for a CRF-300 Module
Each module is factory preset with an address of "00". To set an SLC address, refer to "Setting an SLC address for a Single Point Module" on page 33.
7.2.2 Wiring a CRF-300 Module (Form-C Relay)
The figure below shows a CRF-300 module wired to the Control Panel:
SLC
CRF-300
C
NC
NO
C
NC
NO
SLC-frmCtpH.wmf
Figure 7.1 CRF-300 Wiring Connections
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CRF-300-6 Circuit Board Information
7.3 CRF-300-6 Circuit Board Information
Relay Modules
T102
N.C. N.O. COMM
N.C. N.O. COMM
N.C. N.O. COMM
N.C. N.O. COMM
N.C. N.O. COMM
BASE ADDRESS +0 BASE ADDRESS +1 BASE ADDRESS +2 BASE ADDRESS +4 BASE ADDRESS +5
ADDRESS DISABLE
NONE ONE TWO
THREE
crf-300-6.wmf
Disable Address Place shunt onto required pins.
Status Indicators Green LEDs are controlled by FACP to indicate status of each module address.
SLC Address Set rotary switches to address required.
Figure 7.2 CRF-300-6 Control Relay Module
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Relay Modules
CRF-300-6 Installation & Wiring
7.4 CRF-300-6 Installation & Wiring
7.4.1 Cabinet Installation
This type of module is contained in either a BB-2 or BB-6 cabinet. The BB-2 can accommodate up to 2 modules and the BB-6, which requires the CH-6 chassis, can accommodate up to 6 modules. See the Installation Instructions provided with module for proper installation into cabinet.
7.4.2 Setting an SLC address for a CRF-300-6 Module
Each CRF-300-6 module can be set to one of 154 base addresses (01-154). The remaining module points are automatically assigned to the next five higher SLC addresses. For example, if the base address is set to 28, the next five module points will be addressed to 29, 30, 31, 32 and 33. DO NOT set the lowest address above 154 (45 for the MS-9050UD and ES-50X, 94 for the MS-9200, MS-9200UD, MS-9200UDLS, and ES-200X), as the other module points will be assigned to nonexistent addresses.
NOTE: The MS-9050UD and ES-50Xcan support addresses 01 - 50. The MS-9200,MS-9200UD,MS-9200UDLS, and ES-200X can support module addresses of 01 - 99. The MS-9600, MS-9600LS, and MS-9600UDLS can support module addresses 01 - 159. To set an SLC address, use a common screwdriver to adjust the rotary switches on the module to the desired address. See Figure 6.4 on page 47. For use with an MS-9600, MS-9600LS, MS-9600LSC, and MS-9600UDLS, remove the stop on the upper rotary switch.
7.4.3 Disabling Unused Module Addresses
A shunt is provided on the circuit board to disable a maximum of three (3) unused module addresses. If two module addresses are disabled, the lowest four addresses will be functional, while the highest two will be disabled. For example, if the shunt is placed on `TWO' and the base address is set to 28, the module addresses will be assigned to 28, 29, 30 and 31. To disable addresses, remove the shunt from its storage location and securely place it onto the desired set of pins. See illustration.
J1
SLC-disable2.wmf
7.4.4 Wiring a CRF-300-6 Module (Form-C Relay)
The figure below shows a CRF-300-6 module wired to the Control Panel.
+ +
SLC Out
SLC In
Shunt Storage Location
Relay Connections
+ +
CRF-300-6
SLC-fmC1.wmf
Figure 7.3 CRF-300-6 Wiring Connections
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Section 8: Multiple Input/Output Modules
8.1 Description
The CDRM-300 is an addressable module that functions as two individual relay control modules (two isolated sets of Form-C relay contacts) and two Class B monitor modules.
Ratings for the relay contacts on the module are:
Load Description
Inductive (PF = 0.35) Resistive Resistive Inductive (L/R = 20ms) Inductive (PF = 0.35) Resistive Inductive (PF = 0.75) Inductive (PF = 0.35)
Application
Non-Coded Non-Coded Coded Non-Coded Non-Coded Non-Coded Non-Coded Non-Coded
Maximum Voltage 25 VAC 30 VDC 30 VDC 30 VDC 70.7 VAC 125 VDC 125 VAC 125 VAC
Current Rating 2.0 A 3.0 A 2.0 A 0.46 A 0.7 A 0.9 A 0.5 A 0.3 A
NOTE: For more information on the module specifications refer to the Installation Instructions provided with these devices.
8.2 CDRM-300 Installation & Wiring
8.2.1 Setting an SLC address for a CDRM-300 Module
Each module is factory preset with an address of "00". To set an SLC address, use a screwdriver to adjust the rotary switches on the module to the desired address. Each module can use up to four (4) addresses. The base address selected via the rotary address switches will be assigned to relay output #1 from 00 to 156. The module will automatically assign the next three addresses as appropriate to monitored input #1, relay output #2, and monitored input #2.
8.2.2 Wiring a CDRM-300 Module (Form-C Relay)
The figure below shows a CDRM-300 module wired to the Control Panel.
SLC CDRM-300
NC
C
NO
IDC 1 (+)
NC
IDC 1 (-)
C
IDC 2 (+)
NO
IDC 2 (-)
fdrm-1.wmf
Normally Closed Common
Normally Open Normally Closed
Common Normally Open
Figure 8.1 CDRM-300 Wiring Connections
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Section 9: Intelligent Detector Bases and Wireless Gateway
9.1 Description
The following bases provide connection between the SLC and these detector heads: · AD350 and AD355 Multi-criteria Photoelectric Smoke Detectors · CP350 and CP355 Ionization Smoke Detectors · H350, H350R, H355, H355R, H355HT, H365(-IV), H365R(-IV), H365HT(-IV) Thermal Detectors · SD350, SD350T, SD355, SD355T, SD365(-IV), and SD365T(-IV) Photoelectric Smoke Detectors The B501(-WHITE/-BL/-IV), B210LP, and B300-6(-IV) bases are standard plug-in detector bases. The B501BH, B501BHT, B501BH-2, B501BHT-2, B200S(-WH/-IV), B200S-LF(-WH/-IV), B200SR(-WH/-IV), and B200SR-LF(WH/-IV) Sounder Detector Bases include a horn that will sound when the sensor's visible LEDs are latched on for approximately 10 seconds.
On the MS-9200 Control Panel, the sounder will activate when the sensor's visible LEDs are latched on for approximately 10 seconds (Alarm Verification does not delay sounder). If the MS-9600, MS-9600LS, MS-9600UDLS, MS-9200UD, MS-9200UDLS, MS-9050UD, ES-50X, or ES-200X, Control Panel is set with Alarm Verification ON (enabled), the sounder will activate at the end of the verification cycle, providing an alarm is verified, approximately 10 seconds after the sensor's LEDs are latched on. If Alarm Verification is OFF (disabled), the sounder will activate when the sensor's visible LEDs are latched on for approximately 10 seconds. The B224RB(-WH/-IV) Relay Detector Base includes Form-C latching relay contacts for the control of an auxiliary function. The relay operates 12 seconds (nominally) after activation of the sensor head remote annunciator output. The B224BI(-WH/-IV) Isolator Detector Base prevents an entire communications loop from being disabled when a short circuit occurs. The W-GATE Wireless Gateway acts as a bridge between a group of wireless fire devices and a LiteSpeed SLC loop on the ES-50X, ES-200X, or MS-9200UDLS. The gateway can be powered by the SLC loop or by a regulated, external UL-listed, 24VDC power supply. See Section 9.7.
NOTE: When using a Wireless Gateway on the SLC loop, the panel cannot have ANY modules (wired or wireless) in the address range from 140 to 159.
For details about the wireless network and its devices, see the SWIFTTM Smart Wireless Integrated Fire Technology Instruction Manual #LS10036-000FL-E.
9.2 Setting the Detector Address
Each intelligent detector is factory preset with an address of "00." To set an SLC address, use a common screwdriver to adjust the rotary switches on the detector to the desired address (see "Setting an SLC address for a Single Point Module" on page 33). When finished, mark the address in the place provided on the base and the detector.
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Wiring a Detector Base
Intelligent Detector Bases and Wireless Gateway
9.3 Wiring a Detector Base
Typical wiring of a detector base (B501 shown) connected to an SLC is shown in the figure below. An optional RA100Z/RA400Z Remote LED Annunciator is shown connected to the detector.
From Control Panel SLC
+
To Next Device
on SLC
+
SLC-B5012wire.wmf
RA100Z / RA400Z Remote LED Annunciator (Optional) +
Figure 9.1 Wiring a B300-6, B210LP, or B501 Detector Base
NOTE: The B300-6 andd B210LP base wiring is identical to the B501. B501 is the flangeless model.
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Intelligent Detector Bases and Wireless Gateway
Wiring an Isolator Base
9.4 Wiring an Isolator Base
The B224BI Isolator Base will isolate its detector from short circuits that occur on the SLC connected at terminals 2 and 3. It will not isolate its installed detector from short circuits that occur on the SLC connected at terminals 1 and 2. In Style 7 applications, the loss of a single detector during a short circuit is not acceptable, and an isolator module must be installed as shown in the figure below.
SLC Out
Note: The "grid" pattern on the redesigned B224BI mounting plate has been removed for illustration purposes only.
+
+
slc-224bi2wire.wmf
SLC In Conduit
I300 Isolator Module
Figure 9.2 Wiring of a B224BI Isolator Base Mounting Plate
9.5 Wiring a Relay Base
Figure 9.3 shows typical wiring of a B224RB plug-in relay detector base connected to an SLC.
To next device on SLC
+ -
Note: The "grid" pattern on the redesigned B224RB mounting plate has been removed for illustration purposes only.
Normally Closed Common Normally Open
+ -
SLC
Figure 9.3 Wiring of a B224RB Relay Base Mounting Plate
slc-b224rb2wire.wmf
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Wiring a Sounder Base
Intelligent Detector Bases and Wireless Gateway
9.6 Wiring a Sounder Base
Figure 9.4 shows typical wiring of the B200S, B200S-LF, B200SR, or B200SR-LF Sounder Base.
To next device on SLC
+ -
Note: The "grid" pattern on the sounder base has been removed for illustration purposes only.
Optional Sounder Interconnect
slc-b200srwire.wmf
+ -
UL-Listed
24V Power
+ -
Supply
SLC
Figure 9.4 Wiring of a B200S(R)/B200S(R)-LF Sounder Base
NOTE: For more detailed wiring on the sounder base, refer to the device's installation instructions.
9.7 Wiring the W-GATE
NOTE: The W-GATE, as part of the wireless network, has been tested for compliance with the Federal Communications Commission (FCC) requirements of the United States Government. It has not been evaluated for use outside the USA. Use of this system outside the USA is subject to local laws and rules to which this product may not conform. It is the sole responsibility of the user to determine if this product may be legally used outside the USA.
NOTE: It is recommended to use the same wire gauge if there are multiple connections to the same terminal.
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Intelligent Detector Bases and Wireless Gateway
Wiring the W-GATE
9.7.1 SLC Connections
The W-GATE Wireless Gateway acts as a bridge between a group of wireless fire devices and a LiteSpeed SLC loop on the ES-50X, ES200X, or MS-9200UDLS. It is powered by the SLC loop or by a regulated, external 24VDC UL-listed power supply. Available wireless devices include a photo detector, a photo/heat detector, a fixed-temperature heat detector, a rate-of-rise heat detector, and a monitor module. For details about wireless devices, system setup, and operation, see the SWIFTTM Smart Wireless Integrated Fire Technology Instruction Manual.
A7- SLC OUT+
A6- SLC IN+ A5- SLC- (Common) A4- SLC Power Select 2 A3- Power +24VDC
A2- Power Ground
A1- SLC Power Select 1
2.4.wmf
Figure 9.5 W-GATE Mounting Plate - Terminal Layout
9.7.2 W-GATE Powered by the SLC
The W-GATE provides isolation of short circuits on the SLC in Class A (Style 6) installations. SLC connections are power-limited by the panel. An interruption in the SLC that causes a loss of power at the W-GATE for more than 100ms may result in a trouble condition and loss of fire protection provided by the wireless devices for approximately 15 minutes. Use of a regulated, external +24VDC power source (not SLC power) is recommended for installations that require fire protection in the presence of short circuits, including Class A applications and applications that use isolator modules. Figure 9.6 shows typical wiring of a Wireless Network Gateway connected to an SLC when power is supplied by the SLC loop
+- SLC out to next device (Class B)
or SLC return to FACP (Class A)
+- SLC in from FACP/device
Jumpers
2.5.wmf
Figure 9.6 W-GATE Powered by the SLC
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Wiring the W-GATE
Intelligent Detector Bases and Wireless Gateway
9.7.3 W-GATE Powered by a Regulated, External +24VDC Power Source
The W-GATE provides isolation of short circuits of the SLC in Class A (Style 6) installations. SLC connections are power-limited by the panel. +24VDC must be power-limited by the source..
2.6.wmf
+- SLC out to next device (Class B)
or SLC return to FACP (Class A)
+- SLC in from FACP/device +- External 24VDC Power
Figure 9.7 W-GATE Powered by a Regulated, External Source
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Section 10: Addressable Beam Detectors
10.1 Description
The BEAM355, BEAM355S, and OSI-RI-FL are intelligent, addressable projected beam smoke detectors, designed for protecting open areas with high and sloping ceilings and wide-open areas, where spot type smoke detectors are difficult to install and maintain. The BEAM355S has an integral sensitivity test feature that consists of a test filter attached to a servomotor inside the detector optics.
NOTE: This section provides basic wiring and addressing information For critical information on device installation, operation and alignment, refer to the Installation Instructions provided with these devices.
10.2 Installation and Wiring
10.2.1 Setting an SLC Address for a Beam Detector
Each beam detector is factory preset with an address of "00." To set an SLC address, use a common screwdriver to adjust the address rotary code switches on the detector to the desired address (refer to 5.2.1"Setting an SLC address for a Single Point Module" on page 33).
10.2.2 Wiring a Beam Detector
Typical wiring of a BEAM355 beam detector connected to an SLC is illustrated in the figure below.
Alignment Mirror
Alignment Gunsight
Alignment Position Indicator
Digital Signal Strength Readout
Optics Lock-down Screws
Style 7 Isolator Shunts
ONES TENS ADDRESSING
CODE SWITCHES
Horizontal Adjustment
Alignment Switch Sensitivity Switch Test Switch
Vertical Adjustment Reset Switch
Reset Input Test Input
Aux (-) Remote Alarm Out
Test Option (-) Test Option (+)
not used not used
SLC (-) to next device SLC (+) to next device SLC (-) from panel or previous device SLC (+) from panel or previous device
RTS151/KEY& RTS-451/KEY Connections
Figure 10.1 BEAM355 Beam Detector Terminal Block Wiring
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Installation and Wiring Typical wiring of an OSI-RI-FL beam detector connected to an SLC is illustrated in the figure below.
Addressable Beam Detectors
Rotary address switches
Not used Not used
} Aux -
Remote test input Remote trouble output
RTS151/KEY connections
Remote alarm output
Heater Power Heater Power +
USB port
Heater on/off switch
SLC In
SLC Out
Figure 10.2 OSI-RI-FL Beam Detector Terminal Block Wiring
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Section 11: Addressable Manual Pull Station
11.1 Description
The BG-12LX is an addressable manual pull station with a key-lock reset feature.
NOTE: For more information refer to the Installation Instructions provided with this device.
11.2 Installation
11.2.1 Setting an SLC address
Each unit is factory preset with an address of "00." To set an SLC address refer to "Setting an SLC address for a Single Point Module" on page 33.
11.2.2 Wiring a Manual Pull Station
Figure 11.1 shows typical wiring for a BG-12LX Manual Pull Station to an SLC:
+
SLC
To next device on SLC
+
US PAT4440991
SLC-bg12lx2.wmf
Figure 11.1 Wiring of a BG-12LX Pull Station to an SLC
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Appendix A: Power Considerations
A.1 Supplying Power to 24 VDC Detectors and NACs
A.1.1 Resistance and Size
To determine the minimum resistance that can be tolerated in supplying power to 24 VDC 4-wire devices and NACs, use the calculation below. Use this resistance to select the proper gauge wire for the power run from the manufacturer's specifications for the desired wire. For Four-Wire Detectors:
Rmax =
(Vms - Vom) (N)(Is) + (Na)(Ia) + (Ir)
For NACs:
Rmax =
(Vms - Vom) (Nb)(Ib)
Where:
Rmax = maximum resistance of the 24 VDC wires Vms = minimum supply voltage Vom = minimum operating voltage of the detector or end-of-line relay, whichever is greater, in volts N = total number of detectors on the 24 VDC supply circuit Is = detector current in standby Na = number of detectors on the 24 VDC power circuit which must function at the same time in alarm Ia = detector current in alarm Ir = end-of-line relay current Nb = number of Notification Appliance Devices Ib = Notification Appliance current when activated
NOTE: This simplified equation assumes that the devices are at the end of a long wire run.
The minimum supply voltages produced by Fire·Lite power supplies are listed below:
FACP
Vms
Power Supply
MS-9200
16.0
FCPS-24F
MS-9600
16.0
FCPS-24FS6/FCPS-24FS8
MS-9200UD/MS-9200UDLS 19.05
MS-9050UD
18.75
ES-50X
19.2
ES-200X
19.2
Table A.1 Minimum Supply Voltage
Vms 19.1 19.1
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Power Considerations
Supervising 24 VDC Power
A.2 Supervising 24 VDC Power
Power used to supply 24 VDC detectors, notification appliances (using the CMF-300), and two wire detectors (using the MMF-302) can be supervised with a power supervision relay. This relay, energized by the 24 VDC power itself, is installed at the end of each respective power run and wired in-line with the supervised circuit of any intelligent module.
24 VDC power must be provided from a UL-listed power supply for fire protection use.
When power is removed from the relay, the normally closed contacts open the supervised circuit, generating a trouble condition. Therefore, the relay needs to be installed at the end of the supervised circuit, so it will not disrupt the operating capability of all the devices on that circuit. The relay can be installed in-line with any leg (+ or ) of the supervised NAC circuit, either a Style B (Class B) or a Style D (Class A) circuit.
The drawing below illustrates this concept.
24 VDC Power from Control Panel or Power Supply
Last device on the SLC loop
Power Supervision Relay
(EOLR-1)
SLC-psrtpH.cdr
ELR
Supervised NAC
47K
Figure A.1 Supervised 24 VDC Circuit
An alternate method is shown below.
24 VDC Power from Control Panel or Power Supply
CMF-300
ELR 47K
Power Supervision Relay (EOLR-1)
ELR 47K
Supervised NAC
MMF-300
SLC-psr-2addresstpH.wmf
Figure A.2 Alternate: 2-Address Method of Supervising a 24 VDC Circuit
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Appendix B: Surge Suppression
B.1 Introduction
NOTE: Surge protection is not required in Canadian applications.
There are three (3) primary surge protectors that are approved for use with the MS-9200, MS-9200UD, MS-9200UDLS, MS-9600, MS9600LS, MS-9600UDLS, and MS-9050UD.
· DTK-2LVLP-F Diversified Technology Group, Inc. 1720 Starkey Rd. Largo, FL 33771 (727) 812-5000 · SLCP-30 EDCO 1805 N.E. 19th Ave. Ocala, FL 34470 (352) 732-3029 · PLP-42N Northern Technologies, Inc. 23123 E. Madison Ave. Liberty Lake, WA 99019 (800) 727-9119
NOTE: For detailed information, refer to the Installation Instructions supplied with the unit.
One primary surge protector must be used with each SLC wiring pair whenever SLC wiring runs outside the building.
· Install primary protection only as shown in this document. · Refer to NEC Article 800 and local building code requirements.
Additional primary surge suppressors may be added as required by the NEC. Add these additional suppressors in series with the SLC wiring at the building entry/exit.
Wiring connected to the surge suppressor output must remain within the building while wiring connected to the surge suppressor input may be routed outside the building as shown below.
Building #2
Building #1
P
P
P = Primary S = Secondary
P
P
Surge Suppressor
FACP S S
SLC-
Primary devices meet NEC Requirements
Secondary devices meet UL1459 (UL1950)
B.2 Installation
Mounting of the surge suppressor must be inside the FACP enclosure or in a separate enclosure listed for fire protective signaling use.
· Locate on an available stud and secure with nut. · Unit is connected in series with the SLC Loop to protect the Control Panel. · Provide a common ground to eliminate the possibility of a differential in ground potentials.
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Surge Suppression
B.2.1 Wiring Diagram for MS-9200
DTK-2LVLP-F Connections
2LVLP-F
IN OUT
+ SLC Loop
PLP-42N Connections
2LVLP-F
IN OUT
PLP-42N
Optional Four-wire Return Loop Style 6 (Class A)
SLC Terminal Block ABA+ B+ A Shield B Shield
Optional Four-wire Return Loop Style 6 (Class A)
SLC-lvlp1.wmf
Installation
L1 L2 L3 L4 INPUT GRND
OUTPUT L1 L2 L3 L4
SLC-plpn1.wmf
L1 L2 L3 L4 INPUT GRND
OUTPUT L1 L2 L3 L4
+
SLC Loop
PLP-42N
SLC Terminal Block
ABA+ B+ A Shield B Shield
NOTE: Use 12AWG (3.25mm2) to 18AWG (0.75mm2) wire with crimp-on connectors to connect the unit's ground terminal to equipment ground. Wire length must be minimized to provide best protection.
SLCP-30 Connections
2LCP-30
Optional Four-wire Return Loop Style 6 (Class A)
IN OUT
SLC Loop +
2LCP-30
IN OUT
SLC Terminal Block
ABA+ B+ A Shield B Shield
SLC-slcp1.wmf
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Installation
Surge Suppression
B.2.2 Wiring Diagram for MS-9600, MS-9600LS, MS-9600UDLS, MS-9200UD, MS-9200UDLS, and MS-9050UD
DTK-2LVLP-F Connections
2LVLP-F
Optional 4-wire Return Loop Style 6 (Class A)
IN OUT
+
SLC Loop
2LVLP-F
IN OUT
SLC Terminal Block
B+ A+ BAA Shield B Shield
SLC-lvlp4.wmf
PLP-42N Connections
PLP-42N
Optional 4-wire Return Loop Style 6 (Class A)
L1 L2 L3 L4 INPUT GRND
OUTPUT L1 L2 L3 L4
+
SLC Loop
PLP-42N
SLC Terminal Block
B+ A+ BAA Shield B Shield
SLC-plpn4.wmf
L1 L2 L3 L4 INPUT GRND
OUTPUT L1 L2 L3 L4
NOTE: Use 12AWG (3.25mm2) to 18AWG (0.75mm2) wire with crimp-on connectors to connect the unit's ground terminal to equipment ground. Wire length must be minimized to provide best protection.
SLCP-30 Connections
2LCP-30
Optional 4-wire Return Loop Style 6 (Class A)
SLC-slcp4.wmf
IN OUT
2LCP-30
SLC Loop +
IN OUT
SLC Terminal Block
B+ A+ BAA Shield B Shield
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Surge Suppression
B.2.3 Wiring Diagram for ES-50X and ES-200X
DTK-2LVLP-F Connections
2LVLP-F
Optional 4-wire Return Loop Style 6 (Class A)
IN OUT
+
SLC Loop
2LVLP-F
IN OUT
PLP-42N Connections
PLP-42N
SLC Terminal Block B+ A+ BAGround stud on inside of backbox Refer to Figure 2.4 in the FACP manual
Optional 4-wire Return Loop Style 6 (Class A)
L1 L2 L3 L4 INPUT GRND
OUTPUT L1 L2 L3 L4
+
SLC Loop
PLP-42N
SLC Terminal Block
B+
A+
B-
A-
Ground stud on inside of backbox
Refer to Figure 2.4 in the FACP manual
SLC-plpn5.wmf
SLC-lvlp5.wmf
Installation
L1 L2 L3 L4 INPUT GRND
OUTPUT L1 L2 L3 L4
NOTE: Use 12AWG (3.25mm2) to 18AWG (0.75mm2) wire with crimp-on connectors to connect the unit's ground terminal to equipment ground. Wire length must be minimized to provide best protection.
SLCP-30 Connections
2LCP-30
Optional 4-wire Return Loop Style 6 (Class A)
SLC-slcp5.wmf
IN OUT
2LCP-30
SLC Loop +
IN OUT
SLC Terminal Block
B+ A+ BA-
Ground stud on inside of backbox Refer to Figure 2.4 in the FACP manual
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Appendix C: Terminal Conversion Charts for New & Legacy Devices
C.1 CRF-300
Common 2 Closed 2 Open 2
Common 1 Closed 1
SLC SLC +
Open 1
Common 2 Closed 2 Open 2
Common 1
SLC SLC +
Open 1
Legacy Module (V-Type)
Newer Module (H-Type)
Legacy Module Terminal Number (V-Type) 1 2 3 4 5 6 7 8 9 N/A N/A
Terminal Function
SLC SLC + Unused Normally Open (1) Normally Closed (1) Relay Common (1) Normally Open (2) Normally Closed (2) Relay Common (2) Unused Unused
Newer Module Terminal Number (H-Type) 1 2 3 5 6 7 8 9 10 4 11
Table C.1 CRF-300Terminal Conversions
C.2 CMF-300 and MMF-302
All module polarities are shown in standby condition, which reflects the labels on the new modules.
AA+ B/A + B/A -
SLC SLC + VDC VDC +
VDC VDC +
AA+
B/A +
SLC SLC +
Legacy Module (V-Type)
Newer Module (H-Type)
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Terminal Conversion Charts for New & Legacy Devices
MMF-300
Legacy Module Terminal Number (V-Type) 1 2 3 4 5 6 7 8 9 N/A N/A
Terminal Function
SLC SLC + VDC VDC + Unused Solenoid B/A Solenoid B/A + Solenoid A + Solenoid A Unused Unused
Newer Module Terminal Number (H-Type) 1 2 11 10 5 6 7 8 9 3 4
Table C.2 CMF-300 and MMF-302 Terminal Conversions
C.3 MMF-300
Class A Supervision Class A Supervision+ Class A/B Supervision + Class A/B Supervision -
SLC SLC +
Class A Supervision Class A Supervision+ Class A/B Supervision +
SLC SLC +
Legacy Module (V-Type)
Newer Module (H-Type)
Legacy Module Terminal Number (V-Type)
Terminal Function
Newer Module Terminal Number (H-Type)
1
SLC -
1
2
SLC +
2
3
Unused
3
4
Unused
4
5
Unused
5
6
Class A/B Supervision -
6
7
Class A/B Supervision +
7
8
Class A Supervision +
8
9
Class A Supervision -
9
N/A
Unused
10
N/A
Unused
11
Table C.3 MMF-300 Terminal Conversions
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MDF-300
C.4 MDF-300
Terminal Conversion Charts for New & Legacy Devices
Address +1 (H) Address +1 (H) + Base Address (L) + Base Address (L) -
9 8 7 6 5
LLOOOOPP
5 4
6
7
8
910 11
3
12
0 1
21 TENS
0
13 1514
2
8
6
3
4
20 ONES
4
AADDRESS
SLC SLC +
Address +1 (H) Address +1 (H) + Base Address (L) + Base Address (L) -
SLC SLC +
Legacy Module (V-Type)
Newer Module (H-Type)
Legacy Module Terminal Number (V-Type)
Terminal Function
Newer Module Terminal Number (H-Type)
1
SLC -
1
2
SLC +
2
3
Unused
3
4
Unused
4
5
Unused
5
6
Base Address (L) -
6
7
Base Address (L) +
7
8
Address +1 (H) +
8
9
Address +1 (H) -
9
N/A
Unused
10
N/A
Unused
11
Table C.4 MDF-300 Terminal Conversions
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Appendix D: Intelligent Detector Base Layouts for Legacy Devices
D.1 B350LP or B501 Detector Base
SLC +
2(+)
3
1()
Use a female disconnect to wire the RA100Z/RA400Z () to Terminal 1 ().
To next device on SLC
+
SLC-B501wire.wmf
B501 only: For connection of cable shield
RA100Z/ RA400Z Remote LED Annunciator (Optional)
+
Figure D.1 Wiring the Legacy B350LP or B501 Detector Base
NOTE: The B350LP base wiring is identical to the B501, except there is no shield terminal.
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B224BI Isolator Base
D.2 B224BI Isolator Base
SLC Out
Intelligent Detector Base Layouts for Legacy Devices
Conduit
SLC In
SLC-224BIwire.wmf
I300 Isolator Module
Figure D.2 Wiring the Legacy B224BI Isolator Base
D.3 B224RB Relay Base
To next device on SLC
For connection of cable shield
3 Relay Common 2 Normally Open 1 Normally Closed
SLC
Figure D.3 Wiring the Legacy B224RB Relay Base
b224rb.wmf
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Intelligent Detector Base Layouts for Legacy Devices
B501BH(-2) and B501BHT(-2) Sounder Bases
D.4 B501BH(-2) and B501BHT(-2) Sounder Bases
UL-Listed 24V Power
Supply
+ -
Optional Sounder Interconnect
slc-b501bhwiring.wmf
SLC +
SLC -
Figure D.4 Wiring the Legacy B501BH(-2) and B501BHT(-2) Sounder Bases
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Appendix E: Canadian Versions of SLC Devices
UL-listed SLC Device ULC-listed SLC Device Description
Detectors
AD350, AD355, AD365, AD350A, AD355A,
AD365-IV
AD365A, AD365A-IV
Intelligent detector that combines a photoelectric sensing chamber and fixed temperature heat detection (135°F/57.2°C).
CP350, CP355
CP350A, CP-355A
Addressable, intelligent smoke detector that incorporates an ionization sensing chamber. Designed to provide open area protection.
SD350,SD355, SD355R, SD365(-IV), SD365R(-IV)
SD350A, SD355A, SD355RA, SD365A(IV), SD365RA(-IV)
Addressable intelligent smoke detector that uses a photoelectric sensing chamber. Listed for use in ducts. Designed to provide open area protection. (-IV in model number indicates ivory color.)
SD350T, SD355T, SD365T(-IV)
SD350TA, SD355TA, SD365TA(-IV)
Adds thermal sensors that will alarm at a fixed temperature of 135°F (57°C). (-IV in model number indicates ivory color.)
SD355CO, SD365CO NA
Addressable detector that provides both fire and carbon monoxide (CO) detection.
H350, H355, H365(-IV) H350A, H355A, H365A(-IV)
Intelligent thermistor sensing circuit for fast response. Designed to provide open area protection with 50 foot spacing capability. A fixed temperature sensor with 135°F fixed temperature alarm. (-IV in model number indicates ivory color.)
H350R, H355R, H365R(-IV)
H350RA, H355RA, H365RA(-IV)
Incorporates a thermal rate of rise of 15°F (9.4°C). (-IV in model number indicates ivory color.)
H355HT, H365HT(-IV) H355HTA, H365HTA(- High temperature sensor with 190°F (87.8°C) fixed temperature alarm.
IV)
(-IV in model number indicates ivory color.)
OSI-RI-FL
N/A
Addressable long range projected beam smoke detector designed to provide open area protection.
D355PL
D355PLA
An addressable non-relay photoelectric low flow smoke detector.
DNR
DNRA
Photoelectric Duct Detector, Low-flow. Requires SD350(A), SD355(A), or SD365(A) detector.
Bases
B210LP
B210LPA
Standard U.S. Low-Profile base (6", 15.24 cm).
B501(-WHITE, -BL, -IV) B501(-WHITE, -BL, -IV) Standard European flangeless base (4", 10.16 cm) (-IV in model number indicates ivory color. -BL in model number indicates black color).
B501BH, B501BHT
B501BHA, B501BHTA Sounder base, includes Sounder base with temporal sounder (UL 8th Edition).
B501BH-2, B501BHT-2 N/A
Sounder base, includes Sounder base with temporal sounder (UL 9th Edition).
B224RB, B224RB-WH, B224RBA, B224RBA- Low Profile Intelligent relay base.
B224RB-IV
WH, B224RBA-IV
B224BI, B224BI-WH, B224BI-IV
B224BIA, B224BIA-WH, Low Profile Intelligent isolator base. B224BIA-IV
B200S-WH B200S-IV
B200SA-WH, B200SA-IV
Intelligent sounder base, programmable, temporal or steady.
B200S-LF-WH,
N/A
B200S-LF-IV
Intelligent sounder base, programmable, for low frequency applications
B200SR-WH B200SR-IV
B200SRA-WH, B200SRA-IV
Intelligent sounder base, temporal or steady.
B200SR-LF-WH,
N/A
B200SR-LF-IV
Intelligent sounder base for low frequency applications
B300-6(-IV)
B300A-6(-IV)
Standard U.S. Low-Profile base (6", 15.24 cm). (-IV in model number indicates ivory color.)
Monitor and Zone Interface Modules
MMF-300
MMF-300A
Used for normally open contact alarm initiating devices, such as manual pull stations, four-wire smoke detectors, heat detectors, waterflow, and supervisory devices.
MMF-302
MMF-302A
Used to interface with two-wire smoke detectors in addition to normally open contacts.
MDF-300
MDF-300A
Two independent 2-wire Initiating Device Circuits (IDCs) at two separate, consecutive addresses. Wire supervised IDCs as NFPA Style B (Class B) or Style D (Class A) circuits. The modules come with a thermoplastic cover for mounting to a 4-inch (10.16 cm) square mounting box.
MMF-301
MMF-301A
Functionally similar to the MMF-300(A) Monitor Module, but offered in a smaller package for mounting directly in the electrical box of the device being monitored. (Class B input circuit only.)
BG-12LX
BG-12LX
An addressable manual pull station with key-lock reset feature. The addressable module is housed within the pull station.
Control Modules
CMF-300
CMF-300A
Control Module, NAC: Addressable Control Module used as Notification Appliance Circuits (NACs) to power and supervise compatible, UL-listed notification appliances. Wired supervised NACs as NFPA Style Y (Class B) or Style Z (Class A). The modules come with a thermoplastic cover for mounting to a 4-inch (10.16 cm) square mounting box.
CRF-300
CRF-300A
Relay Control Module is similar to the CMF-300(A) except used as a Form-C control relay module.
Fault Isolator Module
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Canadian Versions of SLC Devices
UL-listed SLC Device ULC-listed SLC Device Description
I300
I300A
The Fault Isolator Module protects the system against wire-to-wire short circuits on the SLC. It
should be placed between groups of sensors in a Style 6 or Style 7 SLC to isolate short- and
open-circuit problems and protect the rest of the loop so it can continue to operate normally. It is
not addressable, but listed here due to its use in an SLC.
ISO-6
ISO-6A
The Six Fault Isolator Module protects the system against wire-to-wire short circuits on six isolated SLC circuits. Functionally the same as six I300(A) modules.
Multi-input/output modules
MMF-300-10
MMF-300-10A
Supervises ten Class-B addressable Initiating Device Circuits (IDC) which monitor normally open contact initiating devices.
MMF-302-6
MMF-302-6A
Monitors six zones of conventional two-wire detectors.
CDRM-300
CDRM-300A
Dual Class B monitor / Form-C relay module.
CMF-300-6
CMF-300-6A
Similar in operation to the CMF-300, except it can activate six (6) Style Y (Class B) or three (3) Style Z (Class A) NACs.
CRF-300-6
CRF-300-6
Similar in operation to the CRF-300, except it provides six (6) Form-C relays.
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Index
Numerics
24 VDC detectors 63 24 VDC NAC power 44 24 VDC power
MS-9200, MS-9600 17
A AD355 Detector 11, 54
AD365 Detector 11 address capacity 22 addressable
modules 10, 28
addressable devices 22 addressable modules (overview) 75 addressable monitor modules 28 alarm verification 54 analog intelligent devices 10 Authority Having Jurisdiction 13 auxiliary devices 11
B
B200SR Sounder Detector Base 54 B200SR-LF Sounder Detector Base for Low Frequency 54 B210LP 54
B224BI Isolator Detector Base 22, 54
B224RB Relay Detector Base 54 B300-6(-IV) 54 B350LP Detector Base 72
B501 Detector Base 54, 72
B501BH Sounder Detector Base 54 B501BH-2 Sounder Detector Base 54 B501BHT Temporal Sounder Detector Base 54 B501BHT-2 Temporal Sounder Detector Base 54
base 55, 56, 57 beam detector 12, 60 BEAM355 12, 60 BEAM355S 12, 60 BG-12LX 12, 62
building entry/exit 65
C
CDRM-300 53 CDRM-300 Multiple Input/Output Module
wiring 53 circuit fault 10
CLIP (Classic Loop Interface Protocol) 10, 12
close nippled conduit 27
CMF-300 Control Module 10, 44, 45
installation 44 wiring 44
CMF-300-6 Control Module 11, 44, 48, 49
address disabling 46 address setting 46 circuit board 47 installation 46 short circuit protection 46 Style selection 46 wiring 48
common ground 65 communication protocol 10 conduit, close nippled 27
connectors, crimp-on 66, 67, 68
control modules 10 overview 75
control panel 8 CP350 detector 11 CP355 Detector 54 CP355 detector 11
CRF-300 Relay Module 11, 50
wiring 50
CRF-300-6 Relay Module 11, 50
address disabling 52 address setting 52 circuit board 51 wiring 52
D
D350P Detector 11 D350RP Detector 11 D355PL detector 11
DC resistance 14, 15
detector 54
bases 54, 75
beam 60 heat 54 ion 54 multi-criteria 54 detector bases, wiring of 55 detectors
listing 11, 75
devices addressable 22 auxiliary 11 maximum number between isolators 22 supervised 64
DNR(W) Duct Detector Housing 12 document sources 8 drain wire 16 dry-contact 11 DTK-2LVLP-F 65 dual monitor module 32
E
electrical interference 14 emergency signaling circuit 36
End-of-Line Resistor 45, 48
F fault 13, 26
fault condition 22 fault isolator modules 22 FCPS-24F 63 fire alarm service 32 foil 16
Form-C relay contacts 11, 50, 53, 54 four-wire configuration 45, 49
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G ground terminal 66, 67, 68
H
H350 Detector 11 H350R Detector 11
H355 Detector 11, 54
H355HT Detector 11 H355R Detector 11 H365 Detector 11 H365HT Detector 11 H365R Detector 11 heat detector 54
I I300 Isolator Module 10, 22 initiating device circuits 28, 34, 37, 39
integral relay 22 ionization detector 54
ISO-6 Isolator Module 10, 22
isolator base 22 isolator base, wiring of 56
isolator module 10, 22, 26, 27
how it works 22 wiring of 22
K
key-lock reset 62
L
LEDs 54 local building code 65
loop resistance 14, 15
loops 16
M MDF-300 Dual Monitor Module 10, 32, 39
wiring 39
metal conduit 16, 26
mini monitor module 32 minimum resistance 63
MMF-300 Monitor Module 10, 28, 34, 35, 36
wiring 34
MMF-300-10 Monitor Module 10, 29, 37, 38
wiring 37
MMF-301 Mini Monitor Module 10, 32 MMF-302 Zone Interface Module 10, 30, 40, 41
wiring 40
MMF-302-6 Interface Module 10, 31, 42, 43
wiring 42 module circuits 28 modules
addressable 10 control 10 isolator 10 monitor 10 relay 11 zone interface 30
monitor modules 10, 28
77
Index
overview 75 multi-criteria detector 54 multiple input/output module 53 multi-point module 33
N
NAC 10
NAC power 44, 64
NAC wiring 44 NEC Article 800 65 NFPA Style 4
wiring of 20
with I300 24, 25
NFPA Style 6 wiring of 21 with I300 26
NFPA Style 7 22 with isolator modules 27
NFPA Style B
IDC wiring 34, 37, 39, 40, 42
NFPA Style D
IDC wiring 35, 38, 41, 43
NFPA Style Y 44
wiring of 44, 48
NFPA Style Z 44
wiring of 45, 49
non-resettable power 17 normally closed contacts 64 notification appliance circuit 10
O
older version and newer version modules 8
OSI-RI-FL beam detector 12, 60
P
performance 12 photoelectric 54 PLP-42N 65 polling protocols 10
power run 63, 64 power supervision relay 45, 48, 49, 64
power supplies 63 proper gauge wire 63
pull station 12, 27
wiring of 62
R
RA100Z 55 RA400Z 55 rate of rise 11
ratings, relay contact 44, 50, 53
relay base 22 wiring of 56
relay contact ratings 44, 50, 53
relay module 11 relays
Form-C 11 remote LED annunciator 55 resettable power 17
resistance 14, 15
78
rotary switches 33, 38, 39, 40, 41, 42, 43, 54
S
SD350 Detector 11 SD350T Detector 11
SD355 Detector 11, 54
SD355CO Detector 11 SD355R Detector 11 SD355T Detector 11 SD365 Detector 11 SD365CO Detector 11 SD365R Detector 11 SD365T Detector 11 sensing circuit, thermistor 11 short circuit 22 signaling line circuit 10 single point module 33
SLC address, setting of 33, 54
SLC connections 17 SLC terminal block 16
SLC wiring 34, 35, 36, 37, 38, 39, 40, 41, 42,
43 SLCP-30 65 smoke detectors 54 sounder base 22 sounder base, wiring of 57 sprinkler supervision 32 supervised
circuit 64 devices 64 supplying power 63 suppressors, surge 65
surge protector 10, 13, 65
switching 44
wireless gateway 12, 57
external power 59 SLC connections 58 SLC power 58 wiring I300 22 ISO-6 23 MDF-300 39 MMF-300 34 MMF-300-10 37 MMF-302 40 MMF-302-6 42 NACs 44 wiring pair 65 wiring requirements 14 wiring style requirements 13
Z
zone interface module 30
T
terminal blocks 17 termination of shield 16 thermal detector 54 thermistor sensing circuit 11
trouble conditions 13, 22 T-tapping 14, 20, 21, 26, 27
twisted-pair shielded wiring 14
two-wire configuration 44, 48
two-wire detectors 64
U
unregulated power 17
V
verification cycle 54
W
waterflow alarm service, automatic and manual 32
W-GATE 12, 57
external power 59 SLC connections 58
SLC power 58
wire length 15, 16
wire size 14
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Manufacturer Warranties and Limitation of Liability
Manufacturer Warranties. Subject to the limitations set forth herein, Manufacturer warrants that the Products manufactured by it in its Northford, Connecticut facility and sold by it to its authorized Distributors shall be free, under normal use and service, from defects in material and workmanship for a period of thirty six months (36) months from the date of manufacture (effective Jan. 1, 2009). The Products manufactured and sold by Manufacturer are date stamped at the time of production. Manufacturer does not warrant Products that are not manufactured by it in its Northford, Connecticut facility but assigns to its Distributor, to the extent possible, any warranty offered by the manufacturer of such product. This warranty shall be void if a Product is altered, serviced or repaired by anyone other than Manufacturer or its authorized Distributors. This warranty shall also be void if there is a failure to maintain the Products and the systems in which they operate in proper working conditions.
MANUFACTURER MAKES NO FURTHER WARRANTIES, AND DISCLAIMS ANY
AND ALL OTHER WARRANTIES, EITHER EXPRESSED OR IMPLIED, WITH
RESPECT TO THE PRODUCTS, TRADEMARKS, PROGRAMS AND SERVICES
RENDERED BY MANUFACTURER INCLUDING WITHOUT LIMITATION,
INFRINGEMENT, TITLE, MERCHANTABILITY, OR
FITNESS FOR ANY
PARTICULAR PURPOSE. MANUFACTURER SHALL NOT BE LIABLE FOR ANY
PERSONAL INJURY OR DEATH WHICH MAY ARISE IN THE COURSE OF, OR AS
A RESULT OF, PERSONAL, COMMERCIAL OR INDUSTRIAL USES OF ITS
PRODUCTS.
This document constitutes the only warranty made by Manufacturer with respect to its products and replaces all previous warranties and is the only warranty made by Manufacturer. No increase or alteration, written or verbal, of the obligation of this warranty is authorized. Manufacturer does not represent that its products will prevent any loss by fire or otherwise.
Warranty Claims. Manufacturer shall replace or repair, at Manufacturer's discretion, each part returned by its authorized Distributor and acknowledged by Manufacturer to be defective, provided that such part shall have been returned to Manufacturer with all charges prepaid and the authorized Distributor has completed Manufacturer's Return Material Authorization form. The replacement part shall come from Manufacturer's stock and may be new or refurbished. THE FOREGOING IS DISTRIBUTOR'S SOLE AND EXCLUSIVE REMEDY IN THE EVENT OF A WARRANTY CLAIM.
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One Fire-Lite Place, Northford, CT 06472-1601 USA USA - Phone: (203) 484-7161 Canada - Phone: (905) 856-8733 www.firelite.com
Acrobat Distiller 19.0 (Windows)